Entries |
Document | Title | Date |
20080199014 | Low power downmix energy equalization in parametric stereo encoders - A method and audio device are presented that preserve mono energy during downmixing of a hybrid coding process of an audio signal. The method includes calculating a stereo scaling factor in a group level that is definable within a stereo band. The method may also include updating the stereo scaling factor using an update rate and synchronizing the update rate of a spatial parameter during a fast changing transient portion of the signal. A number of groups in a first stereo band may be greater than a number of groups in a second stereo band, and the first stereo band may be a lower frequency band than the second band or may be perceptually more important than the second band. | 08-21-2008 |
20080205658 | Audio Coding - A spatial decoder unit ( | 08-28-2008 |
20080219454 | Sound Image Localization Apparatus - It is an object of the present invention to provide a sound image localization apparatus which can provide a sound image localized in a targeted spot with accuracy for each listener, and reduce the amount of data and calculations needed to localize the sound image in the targeted spot with accuracy. The parameter setting unit | 09-11-2008 |
20080226084 | ARRAY SPEAKER APPARATUS - An array speaker apparatus includes an array speaker in which plural speaker units are arranged in a single body, a sound source localization adding unit which generates left and right audio signals by performing localization processing for adding sound characteristics to audio signals of a front-left channel and a front-right channel on the basis of head transfer functions, and a sound emitting direction control unit which distributes the left and right audio signals to one or plural speaker units of the array speaker, and controls timing with which the speaker units output the audio signals so that a left sound emitted from the array speaker forms the same sound wavefront formed by a sound emitted from one of virtual point sound sources and that a right sound emitted from the array speaker forms the same sound wavefront formed by a sound emitted from the other of the virtual point sound sources. | 09-18-2008 |
20080232602 | Using Ray Tracing for Real Time Audio Synthesis - According to embodiments of the invention, a sound engine may determine a final sound at a listener location by emulating sound waves within a three-dimensional scene. The sound engine may emulate sound waves by issuing rays from a location of a sound event and tracing the rays through the three-dimensional scene. The rays may intersect objects within the three-dimensional scene which have sound modification factors. The sound modification factors and other factors (e.g., distance traveled by the ray, angle of intersection with the object, etc.) may be applied to the sound event to determine a final sound which is heard by the listener. | 09-25-2008 |
20080240448 | Simulation of Acoustic Obstruction and Occlusion - Realistic simulation of acoustic obstruction/occlusion effects in virtual-reality software applications is achieved by specifying whether a type of filter function is low-pass or high-pass and a cut-off frequency and stop-band attenuation of the filter function. The stop-band attenuation can be specified merely qualitatively, for example as “weak”, “nominal”, or “strong”. As a complement or alternative, obstruction/occlusion can be specified in terms of obstruction objects, such as blocking objects, enclosure objects, surface objects, and medium objects. An obstruction object is specified in terms of one or more environmental parameters and corresponds to naturally occurring acoustically obstructive/occlusive objects, such as curtains, walls, forests, fields, etc. The two specification types—filter specification parameters and environmental parameters—may co-exist in the same implementation or one or the other of the interfaces can be used in a particular implementation. | 10-02-2008 |
20080247553 | Stereophonic Sound Reproduction Device - A stereophonic sound reproduction device has a sound amplifying device that amplifies multi channel surround sound signals for respective channels and outputs the multi channel surround sound signals to a plurality of speakers that are located surrounding a listening position and a rear reverberation creation device, in the rear reverberation creation device, convolution computations are performed on direct sound or initial reflected sound contained in the sound signals of the respective channels of multi channel surround sound signals, and reverberation groups that have flat frequency characteristics and have non-uniform delay time intervals, and that have different delay time intervals for the respective channels while having the same envelope characteristics for the respective channels are created and output for the respective channels. | 10-09-2008 |
20080253577 | Multi-channel sound panner - A method and apparatus for multi-channel panning is provided. The panner can support an arbitrary number of input channels and changes to configurations to the output sound space. For example, the panner seamlessly handles changes in the number of input channels. Also, the panner supports changes to the number and positions of speakers in the output space. In one embodiment, the panner allows continuous control of attenuation and collapsing. In one embodiment, the panner keeps source channels on the periphery of the sound space when collapsing channels. In one embodiment, the panner allows control over the path by which sources collapse. | 10-16-2008 |
20080253578 | Method of and Device for Generating and Processing Parameters Representing Hrtfs - A method of generating parameters representing Head-Related Transfer Functions, the method comprising the steps of a) sampling with a sample length (n) a first time-domain HRTF impulse response signal using a sampling rate (fs) yielding a first time-discrete signal, b) transforming the first time-discrete signal to the frequency domain yielding a first frequency-domain signal, c) splitting the first frequency-domain signal into sub-bands, and d) generating a first parameter of the sub-bands based on a statistical measure of values of the sub-bands. | 10-16-2008 |
20080285762 | POINT SOURCE SPEAKER SYSTEMS - Point source speaker systems are provided. The point source speaker system receives audio input from a device. The system comprises a mountable enclosure, which contains a speaker array. The array includes a substantially forward facing left speaker, a substantially forward facing center speaker, a substantially forward facing right speaker and a horizontally mounted woofer speaker. A woofer tunnel is located behind the left, center and right speakers. The woofer tunnel accelerates woofer sound waves and terminuses at a woofer baffle which leads to a woofer port. The left speaker, center speaker and right speaker may include more than one speaker. One or more of these left speakers and right speakers may be a tweeter. The left speakers receive a left minus right input, the center speakers receive a right plus left input, and the right speakers receive right minus left input. | 11-20-2008 |
20080304670 | Method of and a Device for Generating 3d Sound | 12-11-2008 |
20080304671 | Audio Signal Processing - An audio system for processing two channels of audio input to provide more than two output channels. The input may be conventional stereo material or compressed audio signal data. The audio processing includes separating the input signals into frequency bands and processing the frequency bands according to processes which may differ from band to band. The audio processing includes no processing of L-R signals. | 12-11-2008 |
20090003611 | Method and Apparatus for Processing a Media Signal - An apparatus for processing a media signal and method thereof are disclosed, by which the media signal can be converted to a surround signal by using spatial information of the media signal. The present invention provides a method of processing a signal, the method comprising of extracting a downmix signal from a bitstream; generating a decorrelated downmix signal by applying a decorrelator to the downmix signal; and generating a surround signal by applying rendering information for generating a surround signal to the downmix signal and the decorrelated downmix signal. | 01-01-2009 |
20090003612 | Compatible Multi-Channel Coding/Decoding - In processing a multi-channel audio signal having at least three original channels, a first downmix channel and a second downmix channel are provided, which are derived from the original channels. For a selected original channel of the original channels, channel side information are calculated such that a downmix channel or a combined downmix channel including the first and the second downmix channels, when weighted using the channel side information, results in an approximation of the selected original channel. The channel side information and the first and second downmix channels form output data to be transmitted to a decoder, which, in case of a low level decoder only decodes the first and second downmix channels or, in case of a high level decoder provides a full multi-channel audio signal based on the downmix channels and the channel side information. Since the channel side information only occupy a low number of bits, and since the decoder does not use dematrixing, an efficient and high quality multi-channel extension for stereo players and enhanced multi-channel players is obtained. | 01-01-2009 |
20090041255 | SCALABLE ENCODING DEVICE AND SCALABLE ENCODING METHOD - There is disclosed a scalable encoding device capable of preventing sound quality deterioration of a decoded signal, reducing the encoding rate, and reducing the circuit size. The scalable encoding device includes: a first layer encoder ( | 02-12-2009 |
20090041256 | PRESERVING MATRIX SURROUND INFORMATION IN ENCODED AUDIO/VIDEO SYSTEM AND METHOD - A method and apparatus for preserving matrix-surround information in encoded audio/video includes a receiver operative to receive matrix-surround encoded audio signals via a modem, separate the audio signals into a frequency spectrum having discrete audio frequencies, and determine a cutoff threshold used to encode the matrix-surround encoded audio signals. The method and apparatus further includes a decoder operative to decode a first set of the audio frequencies below the determined cutoff threshold using a first matrix-surround preserving audio encoding method and to decode a second set of audio frequencies above the cutoff threshold using a second non matrix-surround preserving audio encoding method. | 02-12-2009 |
20090046864 | AUDIO SPATIALIZATION AND ENVIRONMENT SIMULATION - A method and apparatus for processing an audio sound source to create four-dimensional spatialized sound. A virtual sound source may be moved along a path in three-dimensional space over a specified time period to achieve four-dimensional sound localization. A binaural filter for a desired spatial point is applied to the audio waveform to yield a spatialized waveform that, when the spatialized waveform is played from a pair of speakers, the sound appears to emanate from the chosen spatial point instead of the speakers. A binaural filter for a spatial point is simulated by interpolating nearest neighbor binaural filters chosen from a plurality of pre-defined binaural filters. The audio waveform may be processed digitally in overlapping blocks of data using a Short-Time Fourier transform. The localized sound may be further processed for Doppler shift and room simulation. | 02-19-2009 |
20090046865 | SOUND IMAGE LOCALIZATION APPARATUS - The present invention is to provide a sound image localization apparatus which can prevent the lowering of the amplitude of the sound image localizing signal, the occurrence of clipping, and deterioration of the sound image localization component of the sound image localizing signal. The sound image localization apparatus according to the present invention comprises a frequency component analyzing unit | 02-19-2009 |
20090060207 | METHOD AND SYSTEM FOR SOUND SOURCE SEPARATION - The present invention relates generally to the field of audio engineering and more particularly to methods of Sound Source Separation, where individual sources are extracted from a multiple source recording. More specifically, the present invention is directed at a method of analysis of stereo recordings to facilitate the separation of individual musical sound sources from stereo music recordings. In particular, the method provides for A method of modifying a stereo recording for subsequent analysis, the stereo recording comprising a first channel signal and a second channel signal, the method comprising the steps of: converting the first channel signal into the frequency domain, converting the second channel signal into the frequency domain, defining a set of scaling factors, producing a frequency azimuth plane by 1) gain scaling the frequency converted first channel by a first scaling factor selected from the set of defined scaling factors, 2) subtracting the gain scaled first signal from the second signal, and 3) repeating steps 1) and 2) individually for the remaining scaling factors in the defined set to produce the frequency azimuth plane which represents magnitudes of different frequencies for each of the scaling factors and which may be used for subsequent analysis. | 03-05-2009 |
20090060208 | Manipulating Spatial Processing in a Audio System - A vehicle audio system that includes a source of audio signals, which may include both entertainment audio signals and announcement audio signals, speakers for radiating audio signals, and spatial enhancement circuitry comprising circuitry to avoid applying spatial enhancement processing to the announcement audio signals. | 03-05-2009 |
20090060209 | Audio-signal processing apparatus and method - Each of audio signals divided into several frequency bands are amplified per frequency band in accordance with gain characteristics that covers a sound-level range from a lowest level to a highest level of each signal. The range has a low range from the lowest level to a first level, a high range from a second level to the highest level, and an intermediate range from the first to second levels between the low and high ranges. The intermediate range has a transition point having a sound level higher than the first level but lower than the second level. Each signal is amplified such that a sound level of each signal is increased from the first level to the sound level of the transition point and then lowered from the sound level of the transition point to the second level in the intermediate range in accordance with the gain characteristics. The amplified audio signals are added and outputted. | 03-05-2009 |
20090060210 | CIRCUIT AND PROGRAM FOR PROCESSING MULTICHANNEL AUDIO SIGNALS AND APPARATUS FOR REPRODUCING SAME - A circuit for processing multichannel audio signals, comprises a frequency characteristics correction device and an output device. The frequency characteristics correction device corrects frequency characteristics of an audio signal of a channel including an audio signal component having a predetermined frequency band, of audio signals of a multichannel comprising at least a right channel and a left channel, in accordance with correction characteristics determined based on a head related transfer function. The output device mixes the audio signal component having the frequency characteristics corrected with an audio signal of the right channel and an audio signal of the left channel to generate mixed output audio signals, and outputting the mixed output audio signals as a right channel output audio signal and a left channel output audio signal. | 03-05-2009 |
20090067634 | Enhancing Audio With Remixing Capability - One or more attributes (e.g., pan, gain, etc.) associated with one or more objects (e.g., an instrument) of a stereo or multi-channel audio signal can be modified to provide remix capability. | 03-12-2009 |
20090067635 | APPARATUS AND METHOD FOR REPRODUCTION OF STEREO SOUND - An apparatus and method for reproducing stereo sound. A transducer ( | 03-12-2009 |
20090067636 | Optimization of Binaural Sound Spatialization Based on Multichannel Encoding - The invention concerns sound spatialization with multichannel encoding for binaural reproduction on two loudspeakers, the spatial encoding being defined by encoding functions associated with multiple encoding channels and the decoding by applying filters for binaural reproduction. The invention provides for an optimization as follows: a) obtaining a original set of acoustic transfer functions particular to an individual's morphology (HRIR;HRTF), b) selecting spatial encoding functions (g(θ,φ,n)) and/or decoding filters (F(t,n)), and c) through successive iterations, optimizing the filters associated with the selected encoding functions or the encoding functions associated with the selected filters, or jointly the selected filters and encoding functions, by minimizing an error (c(HRIR,HRIR*)) calculated based on a comparison between: the original set of transfer functions (HRIR), and a set of reconstructed transfer functions (HRIR*) from encoding functions and decoding filters, whether optimized and/or selected. | 03-12-2009 |
20090080666 | APPARATUS AND METHOD FOR EXTRACTING AN AMBIENT SIGNAL IN AN APPARATUS AND METHOD FOR OBTAINING WEIGHTING COEFFICIENTS FOR EXTRACTING AN AMBIENT SIGNAL AND COMPUTER PROGRAM - An apparatus for extracting an ambient signal from an input audio signal comprises a gain-value determinator configured to determine a sequence of time-varying ambient signal gain values for a given frequency band of the time-frequency distribution of the input audio signal in dependence on the input audio signal. The apparatus comprises a weighter configured to weight one of the sub-band signals representing the given frequency band of the time-frequency-domain representation with the time-varying gain values, to obtain a weighted sub-band signal. The gain-value determinator is configured to obtain one or more quantitative feature-values describing one or more features of the input audio signal and to provide the gain-value as a function of the one or more quantitative feature values such that the gain values are quantitatively dependent on the quantitative values. The gain value determinator is configured to determine the gain values such that ambience components are emphasized over non-ambience components in the weighted sub-band signal. | 03-26-2009 |
20090092259 | Phase-Amplitude 3-D Stereo Encoder and Decoder - A two-channel phase-amplitude stereo encoding and decoding scheme enabling flexible and spatially accurate interactive 3-D audio reproduction via standard audio-only two-channel transmission. The encoding scheme allows associating a 2-D or 3-D positional localization to each of a plurality of sound sources by use of frequency independent inter-channel phase and amplitude differences. The decoder is based on frequency-domain spatial analysis of 2-D or 3-D directional cues in a two-channel stereo signal and re-synthesis of these cues using any preferred spatialization technique, thereby allowing faithful reproduction of positional audio cues and reverberation or ambient cues over arbitrary multi-channel loudspeaker reproduction formats or over headphones, while preserving source separation despite the intermediate encoding over only two audio channels. | 04-09-2009 |
20090103737 | 3D SOUND REPRODUCTION APPARATUS USING VIRTUAL SPEAKER TECHNIQUE IN PLURAL CHANNEL SPEAKER ENVIRONMENT - Disclosed herein is an apparatus for providing 3D sound through plural-channel speakers. The apparatus includes a stereo channel virtual speaker generation device for performing spreading of low-pitch ranges and high-pitch ranges on input left and right channel signals, performing spreading of sound images and preservation of front sound images using the high-pitch range-spread signals, and outputting the sums of left and right processing results; a multi channel virtual speaker generation device for performing spreading of low-pitch ranges and high-pitch ranges on input left front channel, right front channel, left surround channel and right surround channel signals, performing spreading of sound images using the high-pitch range-spread signals, performing preservation of front sound images using front center channel and LFE channel signals, adjusting the gains of the processing results, and outputting the sums of left and right processing results, and an output device for outputting the signals to the plural-channel speakers. | 04-23-2009 |
20090103738 | Method for Binaural Synthesis Taking Into Account a Room Effect - The invention concerns a method for three-dimensional spatialization of audio channels from a filter BRIR filter incorporating a theater effect. For a specific number N of samples corresponding to the size of the pulse response of the BRIR filter, it consists in breaking down (A) the BRIR filter into at least a set of delay and amplitude values associated with the times of arrival of reflections; extracting (B) on the number of B samples at least one spectral module of the BRIR filter; and constituting (C) from each successive delay, its amplitude and its spectral module associated with an elementary BRIR filter (BRIR | 04-23-2009 |
20090110202 | Method of processing a signal - “Method of processing an input sound signal into at least one output signal by means of room simulation processing, the method including processing the input sound signal into at least two sound signal components, each sound signal component representing room simulation of the input signal when having a predefined directivity pattern, at least two of the predefined directivity patterns being mutually different, combining the at least two sound signal components into a resulting room simulation signal by means of combining means.” | 04-30-2009 |
20090110203 | METHOD AND ARRANGEMENT FOR A DECODER FOR MULTI-CHANNEL SURROUND SOUND - The basic concept of the present invention is to extrapolate a partially known spatial covariance matrix of a multi-channel signal in the parameter domain. The extrapolated covariance matrix is used with the downcoded downmix signal in order to efficiently generate an estimate of a linear combination of the multi-channel signals. | 04-30-2009 |
20090110204 | Distributed Spatial Audio Decoder - This invention describes a method for decentralized decoding of a multichannel audio signal by broadcasting the original encoded data and distributing the decoding process between a plurality of receiving units. This allows for the design and manufacture of scalable multichannel audio reproduction systems having an arbitrary number of output channels, composed of a plurality of generic decoder and loudspeaker units each generating fewer output channels. With distributed decoding, a manufacturer can use “off-the-shelf” stereo or mono signal processors, digital-to-analog converters and amplifier components in each generic decoding module, thus reducing manufacturing costs and complexity requirements for each module while offering unlimited scalability in the total number of output channels. | 04-30-2009 |
20090116653 | Audio signal processing device, audio signal processing method, program thereof, and recording meduim containing the program - Stream audio signals input in channel input terminals ( | 05-07-2009 |
20090122994 | LOCALIZATION CONTROL DEVICE, LOCALIZATION CONTROL METHOD, LOCALIZATION CONTROL PROGRAM, AND COMPUTER-READABLE RECORDING MEDIUM - A localization control apparatus outputs an input audio signal to one channel among plural channels, and based on the input audio signal, outputs a control signal for controlling an audio signal for another channel among the plural channels. In the localization control apparatus, an attenuating unit attenuates the input audio signal. A delaying unit, according to band, separates and delays the audio signal attenuated by the attenuating unit. A generating unit generates the control signal by combining each component of the audio signal separated and delayed by the delaying unit. | 05-14-2009 |
20090122995 | SOUND SEPARATING APPARATUS - An apparatus for spatially separating sounds from at least two sound sources includes a sound detection unit and a sound control unit. The sound detection unit detects a first sound from a first sound source while a second sound is outputted from a second sound source. The sound control unit performs a head-related transfer function (HRTF) on the second sound to move the second sound to a user's desired position according to the detection result, thereby the second sound is set as a background sound. | 05-14-2009 |
20090129602 | ARRAY SPEAKER APPARATUS - An array speaker apparatus SParray includes a first radiation means for driving speaker units so that a first sound S | 05-21-2009 |
20090136045 | Method and apparatus for outputting sound source signal by using virtual speaker - A method and apparatus for outputting a sound source signal by using a virtual speaker are provided. The method includes generating a virtual sound source signal delayed by a virtual delay value, instead of by the minimum delay value, according to a sampling rate of an input sound source signal, from the input sound source signal; generating a speaker output signal in which a sampling rate is changed based on the input sound source signal and the generated virtual sound source signal; and outputting the generated speaker output signal. Thus, a non-uniform radiation pattern, which causes distortion in a sound radiated from a speaker array, is removed and the limitation of a frequency band of a controllable sound source signal is overcome, thereby providing a stable sound. | 05-28-2009 |
20090136046 | Audio Signal Processing Circuit - An audio signal processing circuit comprising: a holding circuit configured to receive a clock signal and set data corresponding to the clock signal, and to hold the set data; a processing circuit configured to process at least one of a first audio signal and a second audio signal input in parallel, based on the set data of the holding circuit; and a set data output circuit configured to output the clock signal to the holding circuit based on the first audio signal corresponding to the clock signal, and output the set data to the holding circuit based on the second audio signal corresponding to the set data. | 05-28-2009 |
20090136047 | APPARATUS AND METHOD FOR PROVIDING STEREO EFFECT IN PORTABLE TERMINAL - An apparatus and a method for providing a stereo effect when playing an audio file at a portable terminal are provided. The apparatus includes a component extractor for extracting a mono component and stereo components from an audio signal and a gain controller for determining a signal ratio of the stereo components to the mono component and for controlling a stereo gain according to the signal ratio. | 05-28-2009 |
20090141903 | SOUND IMAGE LOCALIZATION APPARATUS - The present invention provides a sound image localization apparatus capable of localizing a sound image at an intended sound image location unaffected by the physical feature of the listener. | 06-04-2009 |
20090154714 | AUDIO SIGNAL PROCESSING SYSTEM AND SURROUND SIGNAL GENERATION METHOD - To provide an audio signal processing system, a surround signal generation method and so on that are capable of obtaining stable output signal level and feeling of soundscape without depending on an audio input signal. | 06-18-2009 |
20090161879 | Sound Signal Processing Device, Method of Processing Sound Signal, Sound Reproducing System, Method of Designing Sound Signal Processing Device - [Problems to be Solved] At regeneration of sounds by a speaker having common vibration boards for left and right channels allows an audience to percept a broader sound field. | 06-25-2009 |
20090161880 | METHOD AND APPARATUS TO CREATE A SOUND FIELD - The invention generally relates to a method and apparatus for taking an input signal, replicating it a number of times and modifying each of the replicas before routing them to respective output transducers such that a desired sound field is created. This sound field may comprise a directed beam, focused beam or a simulated origin. In a first aspect, delays are added to sound channels to remove the effects of different travelling distances. In a second aspect, a delay is added to a video signal to account for the delays added to the sound channels. In a third aspect, different window functions are applied to each channel to give improved flexibility of use. In a fourth aspect, a smaller extent of transducers is used top output high frequencies than are used to output low frequencies. An array having a larger density of transducers near the center is also provided. In a fifth aspect, a line of elongate transducers is provided to give good directivity in a plane. In a sixth aspect, sound beams are focused in front or behind surfaces to give different beam widths and simulated origins. In a seventh aspect, a camera is used to indicate where sound is directed. | 06-25-2009 |
20090175457 | Audio Signal Processing Apparatus and Audio Signal Processing Method - The present invention is applied to, for example, a camera-integrated video tape recorder. A setting of channels of audio signals that are input from a plurality of audio signal input terminals | 07-09-2009 |
20090180624 | Voice Processor, Voice Processing Method, Program, and Information Recording Medium - A calculating unit ( | 07-16-2009 |
20090180625 | Automotive virtual surround audio system - An automotive virtual surround audio system is implemented in an automobile to receive left- and right-channel audio sources. A synthesizer receives the left- and right-channel audio sources to extend the sources into temporary rear-left and rear-right audio sources. A weighting device receives the left- and right-channel audio sources to perform a weighting operation and produce temporary front-left and front-right audio sources. A first filter receives the temporary front-left and front-right audio sources to perform a filtering operation and produce virtual front-left and front-right audio sources. A second filter receives the temporary rear-left and rear-right audio sources to perform a filtering operation and produce virtual rear-left and rear-right audio sources. Thus, the virtual audio image position is reproduced. | 07-16-2009 |
20090180626 | SIGNAL PROCESSING APPARATUS, SIGNAL PROCESSING METHOD, AND STORAGE MEDIUM - A signal processing apparatus includes a low-pass-filter processing unit configured to perform processing for limiting a band of an input audio signal on the basis of a cutoff frequency; a high-pass-filter processing unit configured to perform processing for limiting a band of the input audio signal on the basis of the cutoff frequency; a delay processing unit configured to perform processing for delaying the audio signal band-limited by the high-pass-filter processing unit; and a combination processing unit configured to combine the audio signal band-limited by the low-pass-filter processing unit and the audio signal subjected to the delay processing performed by the delay processing unit. | 07-16-2009 |
20090185693 | MULTICHANNEL SOUND RENDERING VIA VIRTUALIZATION IN A STEREO LOUDSPEAKER SYSTEM - A speaker virtualization system provides virtual surround sound using a pair of physical loudspeakers. A multiple surround audio channels input is processed using a combination of head related transfer functions and shaped reverberation to provide widening and front/back auditory clues without requiring any kind of interaural path cancellation. The system uses a 360 degree power-response head related transfer function to provide perceptual separation of the reverberant and direct paths, along with discrete, different reverberation for left and right rendering channels to provide envelopment. By eliminating interaural path cancellation, the speaker virtualization system also produces a wider virtual surround sound effect, without dependency on head position and facing. | 07-23-2009 |
20090185694 | LOUDSPEAKER INTERCONNECT TERMINAL - A loudspeaker interconnect terminal for selectively coupling a plurality of loudspeaker drivers to a monophonic source and a stereophonic source. The terminal includes a body defined by a first side and a second side, and first and second sets of input terminals disposed on a respective one of the first and second sides. The terminal also includes an electrical switch with an actuator having a first position and a second position. The first set of input terminals are connected to the corresponding one of the second set of input terminals and a switch cover coupled to the actuator conceals at least a part of the first set of input terminals with the actuator in the first position. | 07-23-2009 |
20090196428 | METHOD OF COMPENSATING FOR AUDIO FREQUENCY CHARACTERISTICS AND AUDIO/VIDEO APPARATUS USING THE METHOD - A method of compensating for spatial audio frequency characteristics that varies in accordance with a mounting condition of a down firing speaker of an audio/video (AV) apparatus includes calculating a listening distance between the AV apparatus and a listener, calculating a distance between a speaker mounted on the AV apparatus and a neighboring reflective surface, setting a spatial frequency compensation filter value and a speaker frequency characteristic compensation filter value based on the calculated distances, and compensating for frequency characteristics of an audio signal by combining the spatial frequency compensation filter value and the speaker frequency characteristic compensation filter value. | 08-06-2009 |
20090202082 | System And Method For Automatic Multiple Listener Room Acoustic Correction With Low Filter Orders - A system and a methods for correcting, simultaneously at multiple-listener positions, distortions introduced by the acoustical characteristics includes warping room responses, intelligently weighing the warped room acoustical responses to form a weighted response, a low order spectral fitting to the weighted response, forming a warped filter from the low order spectral fit, and unwarping the warped filter to form the room acoustical correction filter. | 08-13-2009 |
20090208022 | HEAD-RELATED TRANSFER FUNCTION MEASUREMENT METHOD, HEAD-RELATED TRANSFER FUNCTION CONVOLUTION METHOD, AND HEAD-RELATED TRANSFER FUNCTION CONVOLUTION DEVICE - A head-related transfer function measurement method includes the steps of: first measuring, including placing an acousto-electric conversion unit nearby both ears of a listener where placement of an electro-acoustic conversion unit is assumed, picking up sound waves emitted at a perceived sound source position with the acousto-electric conversion unit in a state with a dummy head or a human at the listener position, and measuring a head-related transfer function from only the sound waves directly reaching the acousto-electric conversion unit; second measuring, including picking up sound waves emitted at a perceived sound source position with the acousto-electric conversion unit, with no dummy head or human at the listener position, and measuring a natural-state transfer property from only the sound waves directly reaching the acousto-electric conversion unit; normalizing the head-related transfer function with the natural-state transfer property to obtain a normalized head-related transfer function; which is stored in a storage unit. | 08-20-2009 |
20090214045 | HEAD-RELATED TRANSFER FUNCTION CONVOLUTION METHOD AND HEAD-RELATED TRANSFER FUNCTION CONVOLUTION DEVICE - A head-related transfer function (HRTF) convolution method arranged, when an audio signal is reproduced acoustically by an electro-acoustic conversion unit disposed in a nearby position of both ears of a listener, to convolute an HRTF into the audio signal, which allows the listener to listen to the audio signal such that a sound image is localized in a perceived virtual sound image localization position, the method including the steps of: measuring, when a sound source is disposed in the virtual sound image localization position, and a sound-collecting unit is disposed in the position of the electro-acoustic conversion unit, a direct-wave direction HRTF regarding the direction of a direct wave, and reflected-wave direction HRTFs regarding the directions of selected one or more reflected waves, from the sound source to the sound-collecting unit, separately beforehand; and convoluting the obtained direct-wave direction HRTF, and the reflected-wave direction HRTFs into the audio signal. | 08-27-2009 |
20090214046 | SURROUND SOUND OUTPUTTING DEVICE AND SURROUND SOUND OUTPUTTING METHOD - A surround sound outputting device includes a receiving portion which receives signals on a plurality of channels, a storing portion which stores measuring sound data representing a sound, an outputting portion which outputs a sound produced based on the signals on the plurality of channels or the measuring sound data in a controlled direction and in a beam shape, a controlling portion which controls a direction of the sound output from the outputting portion, a sound collecting portion which picks up the sound output from the outputting portion to produce picked-up sound data representing the picked-up sound, an impulse response specifying portion which specifies impulse responses in respective directions from respective sound data, a path characteristic specifying portion which specifies path distances of the paths through which the sounds output in the respective directions arrive at the sound collecting portion from the outputting portion and levels of the impulse responses based on the impulse responses in the respective directions, and an allocating portion which specifies directions satisfying a predetermined relationship between the path distances of the paths in the respective directions and the levels of the impulse responses with respect to the plurality of channels respectively, and allocates the signals on the plurality of channels to the specified directions. The controlling portion controls the outputting portion so that respective sounds based on the signals on the plurality of channels are output in the directions specified by the allocating portion. | 08-27-2009 |
20090220095 | METHOD AND AN APPARATUS FOR PROCESSING AN AUDIO SIGNAL - An apparatus for processing an audio signal and method thereof are disclosed. The present invention includes an audio signal receiving unit receiving the audio signal including at least one object; a preset metadata receiving unit receiving preset metadata from preset information; a preset rendering data receiving unit obtaining preset matrix from the preset information; a display unit displaying the preset metadata; an input unit receiving command for selecting one of the preset metadata; and an object adjusting unit adjusting output level of the object according to the output channel by using the preset matrix corresponding to the selected preset metadata. | 09-03-2009 |
20090232316 | MULTI-CHANNEL BLEND SYSTEM FOR CALIBRATING SEPARATION RATIO BETWEEN CHANNEL OUTPUT SIGNALS AND METHOD THEREOF - A multi-channel blend system includes a calibration circuit and a decoding circuit having a gain amplifying module. The decoding circuit is utilized for receiving an input signal to generate a first channel output signal and a second channel output signal. The gain amplifying module is utilized for providing a gain value for determining a separation ratio between the first channel output signal and the second channel output signal according to a calibration signal. The calibration circuit is utilized for providing a predetermined test signal serving as the input signal so as to generate the calibration signal according to at least one of the first and second channel output signals generated from the predetermined test signal. | 09-17-2009 |
20090232317 | Method and Device for Efficient Binaural Sound Spatialization in the Transformed Domain - The invention concerns a method and a system for sound spatialization of a first set of not less than one of the audio channels encoded on of a number of frequency subbands (SBk) and decoded in a transformed domain (Fl, C, Fr, Sr, SI, Ife) into a second set of not less than two (Bl, Br) sound channels in the time domain, from modelling filters converted into a gain and a delay applicable in the transformed domain involving: filtering (A) through equalization, subband delay of the signal by applying at least one gain and one delay to generate from each of said encoded channels an equalized and delayed component; adding (B) a subset of equalized and delayed signals to create a number of filtered signals corresponding to not less than two; synthesizing (C) each of said filtered signals to obtain the second set of not less than two reproduction sound channels (Bl, Br) in the time domain. | 09-17-2009 |
20090252338 | SWEET SPOT MANIPULATION FOR A MULTI-CHANNEL SIGNAL - An apparatus, such as a decoder is arranged to modify the sweet-spot of a spatial M-channel audio signal by modifying spatial parameters. Specifically, a receiver ( | 10-08-2009 |
20090257598 | Audio processing system of projector - An audio processing system of projector including a microphone input, an audio input, an audio adjusting unit, and a mixer is provided. The microphone input is utilized for accessing a first audio signal. The audio input is utilized for accessing at least a second audio signal from an outside audio generating device. The audio adjusting unit accesses the first audio signal and the second audio signal and adjusts the first audio signal and the second audio signal according to a selected mode to generate a third audio signal and a fourth audio signal respectively. The mixer is utilized for mixing the third audio signal and the fourth audio signal with an adjustable mixing ratio to output a fifth audio signal. | 10-15-2009 |
20090262946 | AUGMENTED REALITY ENHANCED AUDIO - A device and method for providing augmented reality enhanced audio. The device is portable and may include a location processing module capable of receiving location information and determining a location of the device in an environment, an orientation processing module capable of determining an orientation of the device at the location, a processor capable of modifying audio content based on the location of the device in the environment and the orientation of the device at the location, and an audio output device capable of outputting the modified audio content. The orientation of the device includes an azimuth and an elevation of the device. | 10-22-2009 |
20090262947 | Apparatus and Method for Producing 3D Audio in Systems with Closely Spaced Speakers - An audio processing circuit includes a crosstalk cancellation circuit that is advantageously simplified for use in audio devices that have closely-spaced speakers. In particular, crosstalk filtering as implemented in the circuit assumes that the external head-related contralateral filters are time-delayed and attenuated versions of the external, head-related ipsilateral filters. With this assumption, the circuit's crosstalk filtering is configurable for varying audio characteristics, according to a small number of settable parameters. These parameters include configurable first and second attenuation parameters for cross-path signal attenuation, and configurable first and second delay parameters for cross-path delay. Optional sound normalization, if included, uses similar simplified parameterization. Further, in one or more embodiments, the audio processing circuit and method include or are associated with a defined table of parameters that are least-squares optimized solutions. The optimized parameter values provide wider listening sweet spots for a greater variety of listeners. | 10-22-2009 |
20090268917 | Dynamic Power Sharing in a Multi-Channel Sound System - A signal processing system for use in a multi-channel audio system having a plurality of power amplifier channels connected to a plurality of loudspeakers and power amplifiers, configured to receive and reproduce audio signals through the loudspeakers, and at least a first channel of the plurality of power amplifier channels amplifying a first audio signal, comprises a processor responsive to a signal level threshold applicable to at least said first channel, such that at and above the signal level threshold, the first audio signal in the first channel is amplitude limited and a portion of at least the first audio signal is mixed into at least a second channel. The amplitude limiting and signal mixing is configured so as to reduce introduction of at least one of: a) audible tonal distortion; and b) perceivable spatial distortion; of a sonic presentation due to said limiting and signal mixing. | 10-29-2009 |
20090279706 | SURROUND GENERATION APPARATUS - A surround system includes a decoder that decodes an encoded audio data stream, a decorrelation unit that receives and decorrelates stereo signals decoded by the decoder so as to generate surround signals having a low-correlation component, an addition unit that adds high-correlation-component signals extracted from the stereo signals to the surround signals generated by the decorrelation unit, and a controller that controls addition of the high-correlation-component signals performed by the addition unit on the basis of the bit rate of the audio data stream. | 11-12-2009 |
20090290717 | DELAY TIME CALCULATION APPARATUS, DELAY TIME CALCULATION METHOD, AND STORAGE MEDIUM STORING PROGRAM THEREFOR - A delay time calculation apparatus that enables all of speaker units constituting a speaker array to contribute to the formation of a combined wavefront directed to an area specified by a user. The delay time calculation apparatus includes a delay time calculation unit that calculates delay times of delayed audio signals supplied to the speaker units such that a ratio at which an evaluation object area is occupied by an area to which an acoustic wave output from each speaker unit reaches earlier than acoustic waves output from the other speaker units falls within a predetermined range. The evaluation object area is a target area to which a combined wavefront of acoustic waves output from the speaker units is directed, or is a perspective projection image of the target area onto a predetermined evaluation plane. | 11-26-2009 |
20090296943 | REPRODUCTION OF LOW FREQUENCY EFFECTS IN SOUND REPRODUCTION SYSTEMS - The invention relates to a method and system for reproduction of sound signals con-tained in a low frequency effect (LFE) channel in an audio reproduction system com-prising at least one main loudspeaker—although typically either five main loudspeakers in a surround sound system or two main loudspeakers in a traditional stereophonic system—and at least one low frequency loudspeaker (subwoofer) for reproduction of the lowest portion of the audible frequency range. According to the method and system of the present invention, the frequency range or the LFE channel is subdivided into a first frequency region below a given cutoff frequency, which first frequency region is provided to the subwoofer, and a second frequency region above said cut-off frequency, which second frequency region is provided to at least one of the main loudspeakers. | 12-03-2009 |
20100034394 | METHOD AND AN APPARATUS FOR PROCESSING AN AUDIO SIGNAL - A method for processing an audio signal is disclosed. The present invention includes obtaining a stereophonic audio signal including a speech component signal and other component signals, obtaining gain values for each channel of the audio signal, determining whether the audio signal is an inverse-phase mono signal including left and right channel whose phase is inverted, inverting a phase of the obtained gain value corresponding to the one channel of the audio signal when the audio signal is an inverse-phase mono signal, modifying the speech component signal based on the inverted phase of the gain value, and generating a modified audio signal including the modified speech component signal, wherein the modified audio signal is in-phase mono signal. Accordingly, a volume of a speech signal of an inverse-phase audio signal and method thereof, in which a sign of a final gain value corresponding to one channel of the audio signal is changed or a value of the final gain corresponding to one channel of the audio signal is adjusted through a process for determining whether an input signal is an inverse-phase mono signal including left and right channel whose phase is inverted. | 02-11-2010 |
20100040238 | APPARATUS AND METHOD FOR SOUND PROCESSING IN A VIRTUAL REALITY SYSTEM - An apparatus to perform sound processing in a virtual reality system includes a sound processing unit to process and produce sound output in sound areas divided into a focus area within a predetermined visual field and a non-focus area out of the predetermined visual field in a virtual reality space for sound sources; and a control unit to divide the sound areas into the focus area and the non-focus area, and to control the sound output of the sound processing unit such that a volume of sound in a first space is gradually decreased while a volume of sound in a second space is gradually increased when a space shift from the first space to the second space in the virtual reality space is detected. | 02-18-2010 |
20100046758 | METHOD AND APPARATUS FOR PROCESSING AN AUDIO SIGNAL - A method for processing an audio signal, comprising the steps of extracting an ancillary signal for generating the audio signal and an extension signal included in the ancillary signal from a received bit stream, reading length information of the extension signal from an extension area of the ancillary signal, and generating the audio signal using the ancillary signal. Accordingly, in case of processing the audio signal by the present invention, it is able to reduce a corresponding load of operation to enable efficient processing and enhance a sound quality. | 02-25-2010 |
20100054482 | Interaural Time Delay Restoration System and Method - An apparatus for processing audio data comprising an interaural time delay correction factor unit for receiving a plurality of channels of audio data and generating an interaural time delay correction factor. An interaural time delay correction factor insertion unit for modifying the plurality of channels of audio data as a function of the interaural time delay correction factor. | 03-04-2010 |
20100054483 | ACOUSTIC IMAGE LOCALIZATION APPARATUS, ACOUSTIC IMAGE LOCALIZATION SYSTEM, AND ACOUSTIC IMAGE LOCALIZATION METHOD, PROGRAM AND INTEGRATED CIRCUIT - An acoustic image localization apparatus according to the present invention that outputs sound from a plurality of speakers so as to localize an acoustic image at a predetermined position on a space as viewed from a listener, the acoustic image localization apparatus comprising: amplitude characteristic adjusting means for adjusting an amplitude frequency characteristic of an inputted acoustic signal such that the acoustic image is localized at a position rotated by a first angle about a position of a listener toward an upper direction from a facing position of the listener; and a plurality of level adjusting means, provided so as to respectively correspond to the plurality of speakers, for adjusting a level of the acoustic signal outputted from the amplitude characteristic adjusting means and for outputting, to a corresponding speaker, the acoustic signal whose level has been adjusted, wherein each of the level adjusting means adjusts the level of the acoustic signal, which is outputted from the amplitude characteristic adjusting means, to a level of the corresponding speaker such that the acoustic image is localized at the predetermined position rotated by a second angle about the position of the listener toward one of directions orthogonal to the rotated directions from the position rotated by the first angle. | 03-04-2010 |
20100054484 | SOUND SYSTEM AND METHOD OF SOUND REPRODUCTION - A sound reproduction system comprises a left and right speakers located in close proximity, and a sound processor which provides audio signals to the pair of speakers. The sound processor preferably derives a cancellation signal from the difference between the left and right channels. The resulting difference signal is scaled, delayed (if necessary), and spectrally modified before being added to the left channel and, in opposite polarity, to the right channel. The spectral modification to the difference channel preferably takes the form of a low-frequency boost over a specified frequency range, in order to restore the correct timbral balance after the differencing process. Additional phase-compensating all-pass networks may be inserted in the difference channel to correct for any extra phase shift contributed by the spectral modifying circuit. The technique may be used in a surround sound system. | 03-04-2010 |
20100080396 | Sound image localization processor, Method, and program - There are provided: a means ( | 04-01-2010 |
20100086136 | SPATIAL DISASSEMBLY PROCESSOR - Two-channel input audio signals are processed to construct output audio signals by decomposing the two-channel input audio signals into a plurality of two-channel subband audio signals. Separately, in each of a plurality of subbands, at least three generated subband audio signals are generated by steering the two-channel subband audio signals into at least three generated signal locations. The output audio signals are synthesized from the generated subband audio signals. The steering applies differing construction rules in at least two of the plurality of subbands. | 04-08-2010 |
20100104106 | Audio processing apparatus and method of mobile device - An audio processing apparatus and method for a mobile device are provided. The audio processing apparatus and method may appropriately determine sound source localizations corresponding to a voice signal and an audio signal, and thereby may simultaneously provide a voice call service and a multimedia service. Also, the audio processing apparatus and method may guarantee quality of the voice call service even when simultaneously providing the voice call service and the multimedia service. | 04-29-2010 |
20100111310 | AUDIO SIGNAL PROCESSING APPARATUS - An audio signal processing apparatus comprising: an audio data generation part for generating third audio data from first audio data and second audio data, the first audio data including first L-channel data and first R-channel data which are alternately and serially arranged in a word unit, the second audio data including second L-channel data and second R-channel data which are alternately and serially arranged in the word unit, and the third audio data including the first L-channel data and the second L-channel data which are alternately and serially arranged in the word unit; a DA conversion part for dividing the third audio data into the first L-channel data and the second L-channel data and converting the first L-channel data and the second L-channel data into a first analog signal and a second analog signal, respectively; and a combining part for combining the first analog signal with the second analog signal to form a third analog signal. | 05-06-2010 |
20100111311 | DELAY TIME CALCULATION APPARATUS AND METHOD - A delay time calculation apparatus enabling all the speaker units of a delay array type speaker array to contribute to formation of a combined wavefront. Sound receiving points for acoustic waves output from the speaker units are set within a target area for the acoustic waves. For each speaker unit, an average value of differences between distances between the sound receiving points for the speaker units and other speaker units and distances between the sound receiving points for the speaker units and the speaker units is determined, and an average value of differences between distances from the other speaker units to sound receiving points for the other speaker units and distances from the speaker units to the sound receiving points for the other speaker units is determined. An average of the average values is converted into a delay time, thereby determining the delay time for each speaker unit. | 05-06-2010 |
20100119072 | Apparatus and method for generating a multichannel signal - An apparatus comprises a processor configured to receive a first audio signal and first location data, the first location data relating to a location of a source of the first audio signal; receive a second audio signal and second location data, the second location data relating to a location of a source of the second audio signal; receive selected location data relating to a selected location; and generate a multichannel signal in dependence on the first and second audio signals, the first and second location data and the selected location data. | 05-13-2010 |
20100128880 | Audio system - An audio system for enhancing localization of sound perceived by a listener in a listening position includes two loudspeakers and a signal processing unit. The loudspeakers are arranged distant from each other and from the listening position. The sound is transmitted from each of the loudspeakers to the listening position according to a respective transfer function. The transfer functions have different phase responses over frequency. The signal processing unit is connected upstream of the loudspeakers and receives two electrical input signals to be radiated as respective sound signals by the two loudspeakers. The signal processing unit includes a phase shifter unit that phase-shifts at least one of the electrical input signals such that a difference in phase responses is constant over a substantial portion of the human audible frequency in a frequency band. | 05-27-2010 |
20100150355 | INFORMATION PROCESSING SYSTEM AND INFORMATION PROCESSING METHOD - An information processing system includes a display, a display sensor that detects a movement or a rotation of the display, a transducer unit as an earphone unit or a headphone unit, a sound processing part that processes an audio signal so as to localize a sound image in a position outside a head of a listener wearing the transducer unit and listening to sound, and an operation controller that computes an output from the display sensor to obtain a moving direction and a moving distance, or a rotation direction and a rotation angle of the display, and controls sound processing performed by the sound processing part in accordance with a result of the computation so that a positional relation between the display and the head of the listener is mapped as a positional relation between an image display surface and the head of the listener in a virtual viewing space. | 06-17-2010 |
20100158258 | Binaural Sound Localization Using a Formant-Type Cascade of Resonators and Anti-Resonators - This invention is a method for binaural localization using a cascade of resonators and anti-resonators to implement an HRTF (head-related transfer function). The spectrum of the cascade reproduces the magnitude spectrum of a desired HRTF. The proposed method provides a considerably more computationally efficient implementation of HRTF filters with no detectable deterioration of output quality while saving memory when storing a large quantity of HRTFs due to the parameterization of its resonators and anti-resonators. Finally, the method offers additional flexibility since the resonators and anti-resonators can be manipulated individually during the design process, making it possible to interpolate smoothly between HRTFs, reduce spectral coloring or achieve higher accuracy at perceptually relevant frequency regions. These HRTF are useful in stereo enhancement and multi-channel virtual surround simulation. | 06-24-2010 |
20100166193 | Multiple Display Systems with Enhanced Acoustics Experience - A method and a system are described providing multiple display systems with an enhanced acoustics experience. A source audio signal having a plurality of source audio channels is generated from an audio signal source. The system includes a plurality of speakers connected to a plurality of display systems. A speaker configuration gatherer determines the spatial configuration of the speakers. An audio signal processor is provided to generate synthesized audio signal based on the contents of the source audio signal and spatial configuration of the speakers. The synthesized audio signal is mapped and delivered to the speakers to produce an enhanced sound field. | 07-01-2010 |
20100166194 | APPARATUS AND METHOD FOR PROCESSING AUDIO - In the specification and drawing an apparatus for processing audio is described and shown with an audio processor for acquiring at least one audio signal from an audio chip and transforming the audio signal into a surround sound signal and a transmitter for emitting the surround sound signal to a radio set. Moreover, a method for processing audio is also disclosed in the specification and drawing. | 07-01-2010 |
20100183155 | ADAPTIVE REMASTERING APPARATUS AND METHOD FOR REAR AUDIO CHANNEL - Provided is an adaptive remastering apparatus and method for a rear channel, which emphasizes only signals of the rear channel while maintaining signals of other channels of a multi-channel audio signal. According to the adaptive remastering apparatus and method for a rear channel, virtual rear left and right channel audio signals are generated by multiplying a predetermined gain by ambient signals extracted from front left and right channel audio signals and are combined with input rear left and right channel audio signals, thereby increasing powers of signals of the rear channel. | 07-22-2010 |
20100183156 | AUDIO SYSTEM AND METHOD TO CONTROL OUTPUT OF THE AUDIO SYSTEM - An audio system and a method to control the output of the audio system are provided. The audio system includes a source unit having an audio signal, a receiver to receive the audio signal and generate a cancellation signal to cancel the audio signal, a first speaker to output the audio signal, and a second speaker to output the cancellation signal. | 07-22-2010 |
20100183157 | AUDIO SIGNAL REPRODUCTION DEVICE AND AUDIO SIGNAL REPRODUCTION SYSTEM - In an audio signal reproduction device and an audio signal reproduction system of the present invention, an SLch sound is reproduced as a mixed sound that is adjusted appropriately by two speakers | 07-22-2010 |
20100189266 | METHOD AND AN APPARATUS FOR PROCESSING AN AUDIO SIGNAL - A method of processing an audio signal is disclosed. The present invention comprises receiving a downmix signal, object information and preset information, generating downmix processing information using the object information and the preset information, processing the downmix signal using the downmix processing information, and generating multi-channel information using the object information and the preset information, wherein the preset information is extracted from a bitstream. Accordingly, a gain and panning of an object can be easily controlled without user's setting for each object using preset information set in advance. And, a gain and panning of an object can be controlled using preset information modified based on a selection made by a user. | 07-29-2010 |
20100189267 | SPEAKER ARRAY APPARATUS, SIGNAL PROCESSING METHOD, AND PROGRAM - A speaker array apparatus for outputting sound beams of a plurality of channels based on audio signals of the plurality of channels, includes a directivity control section that controls a directivity of at least one of the sound beams of the channels so as to generate one or more pairs of the sound beams of the channels having roughly the same directivity, and a frequency characteristic applying section that applies a frequency characteristic to the audio signal corresponding to one of the sound beams of the channels in the one or more pairs to change a sound image localization position of the one of the sound beams of the channels in the one or more pairs. | 07-29-2010 |
20100202619 | SOUND REPRODUCTION SYSTEM COMPRISING A LOUDSPEAKER ENCLOSURE WITH PORTS, AND ASSOCIATED PROCESSING CIRCUIT - A sound reproduction system includes a loudspeaker enclosure that has a first loudspeaker and a second loudspeaker which are mounted on a surface of the enclosure. The first and second loudspeakers are respectively accommodated in a first space and a second space of the enclosure, the spaces being separated by a partition and being in communication with a first port and a second port, respectively. The first and second ports are located on opposite sides of the unit formed by the first and second loudspeakers. Processing elements are used for respectively applying a first and a second electric signal to the first and second loudspeaker, the first and second electric signals being generated from a single signal by differentiated phase processing that varies according to the frequency such that the first and second electric signals are offset relative to one another by a variable period of time which is proportionate to the acoustic distance between the first half of the loudspeaker enclosure including the first space, the first loudspeaker, and the first port, and the second half of the loudspeaker enclosure including the second space, the second loudspeaker, and the second port. | 08-12-2010 |
20100202620 | METHOD AND AN APPARATUS FOR DECODING AN AUDIO SIGNAL - The present invention relates to an apparatus for processing an audio signal and method thereof. The present invention includes receiving a downmix signal comprising at least one object signal, and a bitstream including object information and downmix channel level difference, when the downmix signal comprises at least two object signals, extracting a relation identifier from the bitstream, the relation identifier indicating whether two object signals among the at least two object signals are related to each other, identifying whether the two object signals correspond to stereo object signals, using the downmix channel level difference and the relation identifier, generating mix information including a first element and a second element using a single user input, and generating at least one of downmix processing information and multi channel information based on the object information and the mix information, wherein the stereo object signals includes a left object signal and a right object signal, the first element is applied to the left object signal of the stereo object signal to output a first channel, the second element is applied to the right object signal of the stereo object signal to output a second channel, and the first element is negatively related to the second element. | 08-12-2010 |
20100208900 | METHOD FOR THE SOUND PROCESSING OF A STEREOPHONIC SIGNAL INSIDE A MOTOR VEHICLE AND MOTOR VEHICLE IMPLEMENTING SAID METHOD - The invention relates to a method for the sound processing of a stereophonic signal inside a motor vehicle. In a first implementation (“driver” mode) the stereophonic sound source is centred in the middle of the dashboard for the ‘driver’ listen position. For this purpose, delays (t | 08-19-2010 |
20100226499 | A DEVICE FOR AND A METHOD OF PROCESSING DATA | 09-09-2010 |
20100226500 | AUDIO SIGNAL PROCESSING - Systems and methods of processing audio signals are described. The audio signals comprise information about spatial position of a sound source relative to a listener. At least one audio filter generates two filtered signals for each of audio signal. The two filtered signals are mixed with other filtered signals from other audio signals to create a right output audio channel and a left audio output channel, such that the spatial position of the sound source is perceptible from the right and left audio output channels. | 09-09-2010 |
20100246831 | AUDIO SPATIALIZATION AND ENVIRONMENT SIMULATION - Methods are disclosed for improving sound localization of the human ear. In some embodiments, the method may include creating virtual movement of a plurality of localized sources by applying a periodic function to one or more location parameters of a head related transfer function (HRTF). | 09-30-2010 |
20100246832 | METHOD AND APPARATUS FOR GENERATING A BINAURAL AUDIO SIGNAL - An apparatus for generating a binaural audio signal includes a de-multiplexer and decoder which receives audio data comprising an audio M-channel audio signal which is a downmix of an N-channel audio signal and spatial parameter data for upmixing the M-channel audio signal to the N-channel audio signal. A conversion processor converts spatial parameters of the spatial parameter data into first binaural parameters in response to at least one binaural perceptual transfer function. A matrix processor converts the M-channel audio signal into a first stereo signal in response to the first binaural parameters. A stereo filter generates the binaural audio signal by filtering the first stereo signal. The filter coefficients for the stereo filter are determined in response to the at least one binaural perceptual transfer function by a coefficient processor. The combination of parameter conversion/processing and filtering allows a high quality binaural signal to be generated with low complexity. | 09-30-2010 |
20100266133 | Sound processing apparatus, sound image localization method and sound image localization program - A sound processing apparatus includes: a filter means for providing a sound signal with a frequency-gain characteristic according to a spectrum difference between a previously measured first head-related transfer function of a sound generated from a virtual sound image position to an ear of a listener and a previously measured second head-related transfer function of a sound generated from a real sound source position to the ear, and outputting the sound signal. | 10-21-2010 |
20100290630 | CENTER CHANNEL RENDERING - An audio system including a rendering processor for separately rendering a dialogue channel and a center music channel. The audio system may include circuitry for extracting one or both of the dialogue channel or the center music channel from program material that does not include both a dialogue channel and a center music channel. The dialogue channel and the center music channel may be radiated with different radiation patterns. | 11-18-2010 |
20100296656 | METHOD AND AN APPARATUS FOR PROCESSING AN AUDIO SIGNAL - A method of processing an audio signal is disclosed. The present invention includes receiving a downmix signal including at least one object signal, and object information extracted when the downmix signal is generated, receiving mix information including mode selection information, the mix information for controlling the object signal, and generating a stereo output signal using the downmix signal or extracting a background object and at least one independent object from the downmix signal, based on the mode selection information, wherein the downmix signal corresponds to a mono signal, wherein the stereo output signal corresponds to a time-domain signal including a signal generated from decorrelating the downmix signal, and wherein the mode selection information includes information indicating which one of modes including a normal mode, a mode for controlling the background object, and a mode for controlling the at least one independent object. | 11-25-2010 |
20100303245 | DIFFUSING ACOUSTICAL CROSSTALK - When two loudspeakers play the same signal, a “phantom center” image is produced between the speakers. However, this image differs from one produced by a real center speaker. In particular, acoustical crosstalk produces a comb-filtering effect, with cancellations that may be in the frequency range needed for the intelligibility of speech. Methods for using phase decorrelation to fill in these gaps and produce a flatter magnitude response are described, reducing coloration and potentially enhancing dialogue clarity. These methods also improve headphone compatibility and reduce the tendency of the phantom image to move toward the nearest speaker. | 12-02-2010 |
20100310080 | SPEAKER ARRAY APPARATUS AND SOUND BEAM CONTROL METHOD - A speaker array apparatus includes a speaker array and a control section that controls audio signals corresponding to channels respectively so that the speaker array emits sound beams for the audio signal of a part of the channels in a plurality of directions and sound beams for the audio signals of the channels other than the part of the channels in a plurality of directions. One of the sound beams for the audio signal of the part of the channels is substantially identical in direction with one of the sound beams for the audio signals of the channels other than the part of the channels. Sound images for emitting sounds for the audio signals of the channels other than the part of the channels are formed and a phantom sound image for the audio signal of the part of the channels is formed at a position which is deviated from positions of the sound images. | 12-09-2010 |
20100316224 | SYSTEMS AND METHODS FOR CREATING IMMERSION SURROUND SOUND AND VIRTUAL SPEAKERS EFFECTS - Modern electronic devices are getting more portable and smaller leading to smaller distances between speakers. In particular, computers are now so compact that the notebook computer is one of the most popular computer types. However, with the proliferation of media available in digital form, both music recordings and video features, the demand for high quality reproductions on computers has increased. Systems and methods for producing wider speaker effects and immersion effects disclosed can enhance a listener's experience even in a notebook computer. | 12-16-2010 |
20100322428 | AUDIO SIGNAL PROCESSING DEVICE AND AUDIO SIGNAL PROCESSING METHOD - An audio signal processing device includes: head related transfer function convolution processing units convoluting head related transfer functions with audio signals of respective channels of plural channels, which allow the listener to listen to sound so that sound images are localized at assumed virtual sound image localization positions concerning respective channels of the plural channels of two or more channels when sound is reproduced by electro-acoustic transducer means; and 2-channel signal generation means for generating 2-channel audio signals to be supplied to the electro-acoustic transducer means from audio signals of plural channels from the head related transfer function convolution processing units, wherein, in the head related transfer function convolution processing units, at least a head related transfer function concerning direct waves from the assumed virtual image localization positions concerning a left channel and a right channel in the plural channels to both ears of the listener is not convoluted. | 12-23-2010 |
20110002467 | DYNAMIC ENHANCEMENT OF AUDIO SIGNALS - An audio processor for generating an audio output signal (Y) with an enhanced spectral component compared to an audio input signal (X). The processor comprises a frequency splitter (FS) for splitting the input (X) into first and second parts (X | 01-06-2011 |
20110002468 | SOUND SYSTEM AND METHOD OF OPERATION THEREFOR - A sound system comprises at least three audio driver arrangements ( | 01-06-2011 |
20110007904 | ACOUSTIC SIGNAL PROCESSING DEVICE AND ACOUSTIC SIGNAL PROCESSING METHOD - A corrective measurement part of a processing control part | 01-13-2011 |
20110013778 | SPEAKER ARRAY APPARATUS AND METHOD FOR SETTING AUDIO BEAMS OF SPEAKER ARRAY APPRATUS - To provide a speaker array apparatus and a method for setting audio beams in a speaker array apparatus, in which the degree of freedom in the place where the speaker array apparatus is installed is high, and a user can set audio beams easily. A speaker array apparatus | 01-20-2011 |
20110019829 | STEREO SIGNAL CONVERTER, STEREO SIGNAL REVERSE CONVERTER, AND METHODS FOR BOTH - Disclosed are a stereo signal converter whereby it is possible to obtain low-redundancy encoding signals (M, S) even when the sound source locations are different, and a stereo signal reverse converter whereby it is possible to obtain higher-quality stereo signals. In a stereo signal converter ( | 01-27-2011 |
20110026720 | SIGNAL PROCESSING APPARATUS AND SIGNAL PROCESSING METHOD - A surround effect in low-tone range can be improved when speakers to be positioned in front of a listener are used to realize a surround sound. A left surround signal extracting part | 02-03-2011 |
20110038484 | DEVICE FOR AND A METHOD OF PROCESSING AUDIO DATA | 02-17-2011 |
20110051936 | AUDIO-SIGNAL PROCESSING DEVICE AND METHOD FOR PROCESSING AUDIO SIGNAL - An audio-signal processing device that processes an audio signal and supplies the audio signal to an audio output unit includes a characteristic-component extraction unit that extracts at least a high frequency component contained in the audio signal as a characteristic component. The audio signal and the extracted characteristic component are supplied to the audio output unit so that a sound image of the extracted characteristic component is localized closer to a listener than a sound image of the audio signal. | 03-03-2011 |
20110051937 | BEAM FORMING IN SPATIALIZED AUDIO SOUND SYSTEMS USING DISTRIBUTED ARRAY FILTERS - A system includes multiple speakers arranged in a speaker array configuration. The system also includes one or more filters configured to filter audio signals and generate filtered audio signals. The one or more filters are configured to operate using filter coefficients associated with a desired beam pattern to be produced by the multiple speakers. The system further includes at least one amplifier configured to amplify the filtered audio signals and provide the amplified filtered audio signals to the speakers. The one or more filters reside within or are coupled to the at least one amplifier. The system may further include a controller configured to modify at least one of the filter coefficients based on a change in the speaker configuration. The filters may operate independently of a centralized processor, and a centralized processor may not even be required to provide electronic beam forming. | 03-03-2011 |
20110058676 | SYSTEMS, METHODS, APPARATUS, AND COMPUTER-READABLE MEDIA FOR DEREVERBERATION OF MULTICHANNEL SIGNAL - Systems, methods, apparatus, and computer-readable media for dereverberation of a multimicrophone signal combine use of a directionally selective processing operation (e.g., beamforming) with an inverse filter trained on a separated reverberation estimate that is obtained using a decorrelation operation (e.g., a blind source separation operation). | 03-10-2011 |
20110058677 | APPARATUS AND METHOD FOR GENERATING DIRECTIONAL SOUND - An apparatus for generating directional sound is provided. By using a time-variant beam pattern, the apparatus may generate constant direct waves in a listening area and may vary reflected waves followed by the direct waves according to time. The apparatus may convolute the time-variant beam pattern with a sound signal, may process an acoustic signal, which may be obtained through convolution, into a multi-channel signal, and may amplify and output the multi-channel signal. | 03-10-2011 |
20110058678 | STEREO SIGNAL CONVERSION DEVICE, STEREO SIGNAL INVERSE CONVERSION DEVICE, AND METHOD THEREOF - Provided is a stereo signal conversion device which can realize a high-quality encoding with few redundancy and with a low bit rate even when the position of a sound source is different. The device includes: a sample difference analysis unit ( | 03-10-2011 |
20110069841 | VOLUME ADJUSTMENT BASED ON LISTENER POSITION - Volume adjustment based on listener position is disclosed. A position of one or more speakers is identified, and a position of a listener is tracked. For each of the one or more speakers, a changing distance between that speaker and the listener is assessed. A volume of that speaker is automatically adjusted in real-time based on a current distance between that speaker and the listener. | 03-24-2011 |
20110075850 | ANGLE-DEPENDENT OPERATING DEVICE OR METHOD FOR GENERATING A PSEUDO-STEREOPHONIC AUDIO SIGNAL - An angle-dependent operating device and method for obtaining a pseudo-stereophonic audio signals, such as through the parameterization of a fictitious opening angle α+β, where α is the fictitious left-hand opening angle (situated to the left of the principal axis of the monophonic audio signal to be stereophonized), and β is the fictitious right-hand opening angle (situated to the right of the principal axis of the monophonic audio signal to be stereophonized), where it may be that α≠β. This is provided for the situation of fictitious opening angles α+β which are asymmetric with respect to the principal axis of the monophonic audio signal to be stereophonized. | 03-31-2011 |
20110081023 | REAL-TIME SOUND PROPAGATION FOR DYNAMIC SOURCES - Described herein are techniques pertaining to real-time propagation of an arbitrary audio signal in a fixed virtual environment with dynamic audio sources and receivers. A wave-based numerical simulator is configured to compute response signals in the virtual environment with respect to a sample signal at various source and receiver locations. The response signals are compressed and placed in the frequency domain to generate frequency responses. Such frequency responses are selectively convolved with the arbitrary audio signal to allow real-time propagation with moving sources and receivers in the virtual environment. | 04-07-2011 |
20110081024 | SYSTEM FOR SPATIAL EXTRACTION OF AUDIO SIGNALS - A sound processing system receives an audio input signal that includes at least two different input channels of audio content. The sound processing system dissects the audio input signal to separate sources of audible sound included in the audio input signal into sound source vectors. Separation of the sources of audible sound into sound source vectors may be based on a perceived location of each of the sources of audible sound within a listener perceived sound stage. The sound source vectors may represent spatial slices across the listener perceived sound stage that may be individually and independently processed with the sound processing system. Following processing, the sound source vectors may be selectively assembled to form an audio output signal having output channels used to drive respective loudspeakers. Since the sources of audible sound are separated and independent, the audible sound sources may be included on any one or more of the output channels. | 04-07-2011 |
20110091042 | APPARATUS AND METHOD FOR GENERATING AN ACOUSTIC RADIATION PATTERN - Disclosed are an apparatus and method for creating an acoustic radiation pattern, which may improve sound focusing performance to a target position. The acoustic radiation pattern creating apparatus may process an input signal which may be output through a speaker array in a room such that at least one vertical-directional reflected wave component of the input signal may overlap a direct sound of the input signal at the target position. Then, the acoustic radiation pattern creating apparatus may replicate the processed input signal by the number of output channels of the speaker array, and may process the replicated input signals such that the replicated input signals may form a predetermined radiation pattern in a horizontal direction in the room when the replicated input signals are output through the speaker array. | 04-21-2011 |
20110091043 | METHOD AND APPARATUS FOR DETECTING AUDIO SIGNALS - A method and an apparatus for detecting audio signals are disclosed. The input audio signal is inspected to check whether it is a foreground frame or a background frame; the detected background signal is further inspected according to the music eigenvalue and the decision rule. Therefore, background music can be detected, and the classifying performance of the voice/music classifier is improved. | 04-21-2011 |
20110103590 | AUDIO SYSTEM PHASE EQUALIZATION - A method is provided for optimizing acoustic localization at one or more listening positions in a listening environment such as, but not limited to, a vehicle passenger compartment. The method includes generating a sound field with a group of loudspeakers assigned to at least one of the listening positions, the group of loudspeakers including first and second loudspeakers, where each loudspeaker is connected to a respective audio channel; calculating filter coefficients for a phase equalization filter; configuring a phase response for the phase equalization filter such that binaural phase difference (Δφ | 05-05-2011 |
20110103591 | APPARATUS AND METHOD FOR ADJUSTING SPATIAL CUE INFORMATION OF A MULTICHANNEL AUDIO SIGNAL - An apparatus for enhancing a multichannel audio signal comprising at least two channels configured to: estimate a value representing a direction of arrival associated with a first audio signal from at least a first channel and a second audio signal from at least a second channel of at least two channels of a multichannel audio signal; determine a scaling factor dependent on the direction of arrival associated with the first audio signal and the second audio signal; and apply the scaling factor to a parameter associated with a difference in audio signal levels between the first audio signal and the second audio sign. | 05-05-2011 |
20110116639 | AUDIO SIGNAL PROCESSING DEVICE AND AUDIO SIGNAL PROCESSING METHOD - An audio signal processing device is provided whereby, from two systems of audio signals in which audio signals of multiple audio sources are included, the audio signals of the multiple audio sources can be suitably separated. The audio signal processing device comprises dividing means | 05-19-2011 |
20110116640 | CONTENT REPRODUCTION SYSTEM AND CONTENT REPRODUCTION METHOD - The contents reproducing system includes a plurality of contents reproducing units, and the delay amount calculating unit calculates the delay amount with which each of the contents reproducing units reproduces the contents data. The delay amount is the time to delay the reproduction of the contents data, for example. The contents reproducing unit reproduces the contents data, by each of the contents reproducing units, with the delay based on the delay amount calculated by the delay amount calculating unit. By automatically controlling the delay amount of the contents data in this manner, the contents reproducing system can create a sound space with wrapped feeling and spreading feeling. | 05-19-2011 |
20110116641 | AUDIO SYSTEM AND METHOD OF OPERATION THEREFOR - An audio system receives a multi-channel signal which is fed to a controller ( | 05-19-2011 |
20110123030 | Dynamic spatial audio zones configuration - A method for presenting audio-visual content for a display includes defining a window associated with a program having associated audio signals on the display. An audio position is defined for the audio signals based upon a position of the window on the display, and a position of at least two speakers associated with the display. The audio signals are modified based upon the audio position in such a manner that the audio signals appear to originate from the window. | 05-26-2011 |
20110123031 | MULTI CHANNEL AUDIO PROCESSING - A method including: receiving at least a first input audio channel and a second input audio channel; and using an inter-channel prediction model to form at least one inter-channel parameter. | 05-26-2011 |
20110123032 | SINGLE SOUND TRANSMISSION APPARATUS USING HUMAN BODY COMMUNICATON - Provided is a single sound transmission apparatus using human body communication. The single sound transmission apparatus includes a sound signal generator generating a sound signal of an audio frequency band, a high frequency signal generator generating a high frequency signal having a higher frequency than the audio frequency band, a signal combiner generating a combined signal by combining the sound signal with the high frequency signal, and a signal transmitter varying a phase difference between the combined signal outputted from the signal combiner and the high frequency signal outputted from the high frequency signal generator, and outputting the combined signal and the high frequency signal together to a human body, in order to leave only the sound signal through destructive interference of the high frequency signal of the combined signal, wherein the destructive interference is generated in an ear area of the human body. | 05-26-2011 |
20110129091 | METHOD FOR MULTI-CHANNEL PROCESSING IN A MULTI-CHANNEL SOUND SYSTEM - The invention relates to a method for multi-channel processing in a multi-channel sound system. For this purpose, a channel or a channel mixture is first split into individual channels. Then the individual channels are limited by means of setting the values of the parameters channel fader, threshold, release, and output level. Then encoding of the individual channels follows. In order to develop the method further in such a manner that the encoded surround mixes not only function as data carriers of the mixes to be decoded, but rather can exist in parallel, also in and of themselves, as compared with stereo and mono, the invention proposes that at least two channels are compressed and/or limited with a uniform output level value in method step c), one channel is provided with a deviating output level value, which is set, depending on the audio material to be processed, and every further channel is compressed and/or limited in such a manner that it has an output level value that is at least one decibel less than the uniform output level value, whereby subsequent to method step d), further limiting of the individual channels combined into an encoded (coded) channel takes place by means of setting a value of at least one of the parameters channel fader, threshold, release, and output level. | 06-02-2011 |
20110129092 | RECONSTRUCTION OF MULTI-CHANNEL AUDIO DATA - A method for processing sound data is provided for the reconstruction of multi-channel audio data on the basis at least of data on a reduced number of channels and of spatialization data. A test is carried out to determine whether the spatialization data received are valid. If the test is positive, a spatialization value is predicted according to a per respective model of a plurality of models. A prediction model is chosen on the basis of the spatialization values thus predicted and on the basis of the spatialization data received, to permit, in case of subsequent reception of defective spatialization data, a prediction according to this chosen model of a spatialization value and to use this predicted spatialization value for the reconstruction of the multi-channel audio data. | 06-02-2011 |
20110135098 | METHODS AND DEVICES FOR REPRODUCING SURROUND AUDIO SIGNALS - Method and devices for providing surround audio signals are provided. Surround audio signals are received and are binaurally filtered by at least one filter unit. In some embodiments, the input surround audio signals are also processed by at least one equalizing unit. In those embodiments, the binau-rally filtered signals and the equalized signals are combined to form output signals. | 06-09-2011 |
20110135099 | ADAPTIVE PREFILTER-PREMIXER FOR SOUND REPRODUCTION - Adaptive learning of a multichannel prefilter response processes multiple audio signals prior to emitting them from a set of loudspeakers. The signals are filtered and mixed in such a way that the emitted signals will be reconstructed at pre-specified points in a room. This is done in a user selective way so that, at each location, only one of the source signals is reconstructed and the other signals vanish. A gradient descent adaptive filtering method is applied. | 06-09-2011 |
20110135100 | Loudspeaker Array Device and Method for Driving the Device - A loudspeaker array device and a method for driving the device are disclosed. The device includes: a delay module, a gain module, and a parameter calculating module. The parameter calculating module includes: a controlling module, configured to determine, according to received user control information, types of delay parameters and gain parameters that need to be calculated, and output a determination result; and a calculation executing module, configured to calculate and output the delay parameters and the gain parameters according to the determination result output by the controlling module. The delay module is configured to process and output audio signals according to the received delay parameters. The gain module is configured to process and output audio signals according to the received gain parameters. According to the present invention, the loudspeaker array device implements not only sound source reproduction and but also sound focus. The implementation is simple, convenient, and cost effective. | 06-09-2011 |
20110142244 | DELAY AMOUNT DETERMINATION DEVICE, SOUND IMAGE LOCALIZATION DEVICE, DELAY AMOUNT DETERMINATION METHOD AND DELAY AMOUNT DETERMINATION PROCESSING PROGRAM - A delay amount determination device, sound image localization device, delay amount determination method, and delay amount determination processing program capable of efficiently determining a parameter using fewer test sounds are provided. If the localization direction of the sound image when the test sound is outputted from left and right speakers is specified by the user through an input unit, an operation unit finds the localization angle corresponding to the localization direction. The operation unit, if finding localization angles with two different delay values, compares the difference of the two localization angles with a threshold value. The operation unit, if judging that the difference is larger than the threshold value, changes one of the delay values, finds the localization angle corresponding to the changed delay value, and further compares the difference of the two localization angles with the threshold value. | 06-16-2011 |
20110150228 | AUDIO APPARATUS, AUDIO SIGNAL TRANSMISSION METHOD, AND AUDIO SYSTEM - An audio apparatus, an audio signal transmission method, and an audio system are provided. The audio signal transmission method includes: wirelessly receiving an audio signal from a first external device; converting the received audio signal into audio signals of multi-channels; and wirelessly transmitting an audio signal of at least one of the multi-channels to at least one of second external devices. Therefore, the audio apparatus wirelessly communicates with a plurality of external devices, and thus a user can connect an audio device to an external device without using wired cables. | 06-23-2011 |
20110158414 | Passive Sound Pressure Level Limiter with Balancing Circuit - A passive sound pressure level (SPL) limiter is provided that can be used with audio sources of varying drive levels and headphones or earphones of varying sensitivity. The SPL limiter includes a control circuit and left and right channel limiting circuits, each of which includes a pair of FETS. The SPL limiter may include a balancing circuit that separates the control signal output by the control circuit into left and right channel control signals. The SPL limiter may also include a microphone, for example integrated into an earpiece cable. | 06-30-2011 |
20110164754 | Loudspeaker Device - There is provided a loudspeaker device comprising at least one loudspeaker (L | 07-07-2011 |
20110164755 | Enhancing the Reproduction of Multiple Audio Channels - This invention relates to the field of multichannel audio. More particularly, the invention relates to a method for the provision of audio channels suitable for application to loudspeakers located above conventional front loudspeakers. | 07-07-2011 |
20110176683 | Information Communication Apparatus, Transmission Apparatus And Receiving Apparatus - The acoustic signal transmission method is based on generating a synthesized sound electrical signal by electrically synthesizing an audible sound signal and another signal different than the audible sound signal at the sending side, and transmitting the synthesized sound electrical signal, and extracting the another signal different than the audible sound signal from the synthesized sound electrical signal at the receiving side. Here, generation of the synthesized sound electrical signal is made by using a data hiding technique, for example. Accordingly, the acoustic signal represented by the synthesized sound electrical signal can be heard by human ears in the same way as the audible sound signal, and the synthesized another signal cannot be detected by human ears. Here, the synthesized sound electrical signal can be transmitted as a sound wave in air space, as electrical signal through a transmission line or as radio signals such as infrared and electromagnetic waves. | 07-21-2011 |
20110176684 | Sound Image Localization Apparatus - A sound image localization apparatus comprises an L direct output section that produces an output signal by inputting an audio signal of a rear left audio input channel to a filter having a characteristic obtained by dividing RLD by LD, an L cross output section that produces an output signal by inputting the audio signal of the rear left audio input channel to a filter having a characteristic obtained by dividing RLC by LC, an R cross output section that produces an output signal by inputting an audio signal of a rear right audio input channel to a filter having a characteristic obtained by dividing RRC by RC, an R direct output section that produces an output signal by inputting the audio signal of the rear right audio input channel to a filter having a characteristic obtained by dividing RRD by RD, a first adding section that adds a difference signal between the output signal of the L direct output section and the output signal of the R cross output section to an audio signal of a front left audio input channel, and a second adding section that adds a difference signal between the output signal of the R direct output section and the output signal of the L cross output section to an audio signal of a front right audio input channel. | 07-21-2011 |
20110188661 | Flat Panel Loudspeakers - A flat panel loudspeaker with such an emission characteristic is obtained which, in the event of the flat panel loudspeaker being set up inversely, provides an improved listening result in that a loudspeaker is provided within the housing, and a sound conduction is configured such that sound from the loudspeaker is conducted outward via an acoustic aperture within the housing for undirected emission. | 08-04-2011 |
20110194700 | ENHANCED SPATIALIZATION SYSTEM - A system enhances spatialization in an audio signal at a receiving location. The system applies a phase difference analysis to signals received from an array of spaced apart input devices that convert sound into electrical signals. The system derives spatial or directional information about the relative locations of the sound sources. The converted signals may be mixed using weights derived from the spatial information to generate a multichannel output signal that, when processed by a remote or local audio system, generates a representation of the relative locations of the sound sources at the originating location at the receiving location. | 08-11-2011 |
20110194701 | SIGNAL PROCESSING METHOD, SYSTEM, AND APPARATUS FOR 3-DIMENSIONAL AUDIO CONFERENCING - The present invention discloses a signal processing method, system and apparatus for 3-dimensional (3D) audio conferencing. The implementation is: a server obtains at least one audio stream relative to one terminal; the server allocates identifiers for the obtained at least one audio stream relative to the terminal; and the server combines the obtained at least one audio stream and the identifiers of the at least one audio stream and sends the combination to the terminal. With the technical solution of the present invention, the issue of excessive transmission channels required in the prior art is resolved and the terminal is capable of determining the sound image positions of other terminals freely. | 08-11-2011 |
20110194702 | Method and Apparatus for Detecting Audio Signals - A method and an apparatus for detecting audio signals are disclosed. The input audio signal is detected to determine whether it is a background frame. The detected background signal is further detected according to a music characterization value and a decision rule. Therefore, background music can be detected, and the classifying performance of the voice/music classifier is improved. | 08-11-2011 |
20110200195 | SYSTEMS AND METHODS FOR SPEAKER BAR SOUND ENHANCEMENT - A sound reproduction apparatus comprising a loudspeaker bar having a plurality of loudspeakers. A loudspeaker bar controller coupled to the loudspeaker bar for processing audio data for the plurality of loudspeakers, the loudspeaker bar controller comprising a spatial enhancement/virtualization system for receiving a surround channel of audio data and processing the surround channel of audio data with a spatial generation/virtualization filter, wherein a left stereo channel of audio data and a right stereo channel of audio data are not processed with the head related transfer function filter. Bass is enhanced for small speakers which are not able to produce bass frequencies. | 08-18-2011 |
20110211702 | Signal Generation for Binaural Signals - A device for generating a binaural signal based on a multi-channel signal representing a plurality of channels and intended for reproduction by a speaker configuration having a virtual sound source position associated to each channel, is described. It includes a correlation reducer for differently processing, and thereby reducing a correlation between, at least one of a left and a right channel of the plurality of channels, a front and a rear channel of the plurality of channels, and a center and a non-center channel of the plurality of channels, in order to obtain an inter-similarity reduced set of channels; a plurality of directional filters, a first mixer for mixing outputs of the directional filters modeling the acoustic transmission to the first ear canal of the listener, and a second mixer for mixing outputs of the directional filters modeling the acoustic transmission to the second ear canal of the listener. According to another aspect, a center level reduction for forming the downmix for a room processor is performed. According to even another aspect, an inter-similarity decreasing set of head-related transfer functions is formed. | 09-01-2011 |
20110216906 | ENABLING 3D SOUND REPRODUCTION USING A 2D SPEAKER ARRANGEMENT - The perception of 3D sound positioning can be achieved using a 2D arrangement of speakers positioned around the listener. The disclosed techniques can enable listeners to perceive sounds as coming from above and/or below them, without the need for positioning speakers above and/or below the listener. In some embodiments, elevation information can be included in the X and Y horizontal components of the 2D ambisonics encoding. The X and Y components can be decoded using 2D ambisonics decoding. Suitable filtering may be performed on the decoded sound information to enhance the listener's perception of the elevation information encoded in the X and Y components. | 09-08-2011 |
20110216907 | MULTI-ELEMENT DIRECTIONAL ACOUSTIC ARRAYS - An audio system including a left input channel signal, a right input channel signal, and a discrete center input channel. Circuitry removes correlated content from the left input channel signal and the right input channel signal and inserts the correlated content into the center input channel signal to provide a modified left input channel signal, a modified right input channel signal, and a modified center input channel signal. The modified left input channel signal is radiated by a directional loudspeaker so that radiation in a direction toward a listening area is less than radiation in other directions. The modified right channel input channel signal is radiated by a directional loudspeaker so that radiation in a direction toward a listening area is less than radiation in other directions. | 09-08-2011 |
20110216908 | APPARATUS FOR MERGING SPATIAL AUDIO STREAMS - An apparatus for merging a first spatial audio stream with a second spatial audio stream to obtain a merged audio stream comprising an estimator for estimating a first wave representation comprising a first wave direction measure and a first wave field measure for the first spatial audio stream, the first spatial audio stream having a first audio representation and a first direction of arrival. The estimator being adapted for estimating a second wave representation comprising a second wave direction measure and a second wave field measure for the second spatial audio stream, the second spatial audio stream having a second audio representation and a second direction of arrival. The apparatus further comprising a processor for processing the first wave representation and the second wave representation to obtain a merged wave representation comprising a merged wave field measure and a merged direction of arrival measure, and for processing the first audio representation and the second audio representation to obtain a merged audio representation, and for providing the merged audio stream comprising the merged audio representation and the merged direction of arrival measure. | 09-08-2011 |
20110222693 | Apparatus, method and computer-readable medium producing vertical direction virtual channel - Provided is an apparatus, method and computer-readable medium generating a vertical direction virtual channel that may apply a vertical direction spectrum shape to a source signal, and generate a vertical direction virtual speaker signal by adjusting a gain with respect to a signal in which the vertical direction spectrum shape is applied, based on virtual speaker direction information. | 09-15-2011 |
20110222694 | APPARATUS FOR DETERMINING A CONVERTED SPATIAL AUDIO SIGNAL - An apparatus for determining a converted spatial audio signal, the converted spatial audio signal having an omnidirectional audio component and at least one directional audio component, from an input spatial audio signal, the input spatial audio signal having an input audio representation and an input direction of arrival. The apparatus has an estimator for estimating a wave representation having a wave field measure and a wave direction of arrival measure based on the input audio representation and the input direction of arrival. The apparatus further has a processor for processing the wave field measure and the wave direction of arrival measure to obtain the omnidirectional audio component and the at least one directional component. | 09-15-2011 |
20110228944 | Automatic Audio Source Switching - A method for automatically switching an audio source includes the steps of receiving an audio signal from a video display device, and receiving a digital audio signal from one of a plurality of audio/video source devices which each can supply audio and video information to the video display device. The digital audio signal is compared with the audio signal from the video display device. The digital audio signal is output to a supplemental audio system of the video display device when the comparing step indicates that the digital audio signal and the audio signal from the video display device contain substantially similar audio programs. | 09-22-2011 |
20110235807 | AUDIO OUTPUT DEVICE - An audio output device is provided that can output sound with a sound field environment, sound quality, and a range suitable for a viewer. The audio output device includes: audio output units | 09-29-2011 |
20110235808 | Audio Reproduction Device and Audio Reproduction Method - A method, apparatus, and computer-readable storage medium for processing a sound signal is provided. The method includes receiving first reference data associated with a positional relationship between reference locations on a first device, receiving second reference data associated with a positional relationship between reference locations on a second device, receiving a reference transfer characteristic, wherein the reference transfer characteristic is based on the first and second reference data, determining, by a processor, an actual transfer characteristic based on acoustic data resulting from a test signal, and calculating, by the processor, a correction coefficient based on a difference between the reference transfer characteristic and the actual transfer characteristic. | 09-29-2011 |
20110235809 | MULTI-CHANNEL AUDIO SIGNAL PROCESSING - The invention relates to multi-channel audio signal processing, in particular to a method of processing a multi-channel audio signal and to a signal processing device. A method of processing a multi-channel audio signal is disclosed, comprising the steps of: receiving an input sum signal (s) representing a sum of a first audio signal and a second audio signal; receiving an input difference signal (d) representing a difference between the first and second audio signals; decorrelating the sum signal to provide a decorrelated sum signal (s | 09-29-2011 |
20110243334 | AUDIO PROCESSING APPARATUS - In an audio processing apparatus of the present invention, one or two audio signals selected from a surround rear left audio signal, a left outer audio signal and a left upper audio signal is (are) amplified to be outputted from a speaker terminal(s) corresponding to this (these) channel(s) without necessity to provide amplifiers of all channels. When the surround rear left audio signal is included, a switch S | 10-06-2011 |
20110243335 | Signal Processing Device and Method, and a Program - A signal processing device includes: a sound adjustment amount calculation unit which calculates a sound adjustment amount for adjusting sound characteristics of each channel to a predetermined sound characteristic for each channel, using a sound signal that is obtained by collecting the outputs of each channel; an evaluation value calculation unit which calculates a coefficient allocation evaluation value for allocating a size of a filter coefficient necessary for the sound adjustment of the respective channels for each channel, based on the sound adjustment amount that is calculated by the sound adjustment amount calculation unit; and a filter coefficient calculation unit which calculates the filter coefficient for each channel using the coefficient allocation evaluation value that is calculated by the evaluation value calculation unit. | 10-06-2011 |
20110243336 | SIGNAL PROCESSING APPARATUS, SIGNAL PROCESSING METHOD, AND PROGRAM - A signal processing apparatus includes: an audio image localization processing unit performing audio image localization processing on a sound signal of each frequency band for each channel of the sound signal based on information used to determine an audio image localization position of each frequency band; and a mixing unit mixing the sound signals of the respective channels subjected to the audio image localization processing by the audio image localization processing unit. | 10-06-2011 |
20110243337 | AUDIO PROCESSING SYSTEM AND METHOD - The present invention is a method and system for audio processing. Embodiments of the present invention may include multi-level equalization capabilities along with room optimization, crossovers, switching, automation control, and scene setting. Embodiments of the present invention may be implemented in the analog or digital realms, or both, and may include channel delays, future proof feature slots, and gain and phase inversion capabilities. The present invention may also include an audio optimization system including an audio processing system and a room correction unit. The room correction unit can cooperate with the audio processing system to generate filter coefficients. The filter coefficients are used by the audio processing system when outputting signals which are amplified by an amplifier and broadcast by a speaker to a particular room. The filter coefficients ensure that the outputted sound is optimized for the particular room. | 10-06-2011 |
20110243338 | SURROUND SOUND VIRTUALIZER AND METHOD WITH DYNAMIC RANGE COMPRESSION - Method and system for generating output signals for reproduction by two physical speakers in response to input audio signals indicative of sound from multiple source locations including at least two rear locations. Typically, the input signals are indicative of sound from three front locations and two rear locations (left and right surround sources). A virtualizer generates left and right surround outputs useful for driving front loudspeakers to emit sound that a listener perceives as emitting from rear sources. Typically, the virtualizer generates left and right surround outputs by transforming rear source inputs in accordance with a head-related transfer function. To ensure that virtual channels are well heard in the presence of other channels, the virtualizer performs dynamic range compression on rear source inputs. The dynamic range compression is preferably accomplished by amplifying rear source inputs or partially processed versions thereof in a nonlinear way relative to front source inputs. | 10-06-2011 |
20110249819 | AUDIO CHANNEL SPATIAL TRANSLATION - M audio input channels, each associated with a spatial direction, are translated to N audio output channels, each associated with a spatial direction, wherein M and N are positive whole integers, M is three or more, and N is three or more, by deriving the N audio output channels from the M audio input channels, wherein one or more of the M audio input channels is associated with a spatial direction other than a spatial direction with which any of the N audio output channels is associated, and at least one of the one or more of the M audio input channels is mapped to a respective set of at least three of the N output channels. At least three output channels of a set may be associated with contiguous spatial directions. | 10-13-2011 |
20110255697 | DIGITAL SOUND PROJECTOR - The present disclosure provides a digital sound projector including an insulated panel, a number of acoustic cells and a signal processing device. The number of acoustic cells is located on a surface of the insulated panel and spaced apart from each other. Each one of the number of acoustic cells includes an acoustic element, a first electrode, and a second electrode. The first electrode and the second electrode are spaced apart from each other and electrically connected to the acoustic element. The signal processing device provides a number of delayed electrical signals to the acoustic element. Each one of the acoustic elements includes a carbon nanotube film structure. | 10-20-2011 |
20110261967 | APPARATUS FOR GENERATING A MULTI-CHANNEL AUDIO SIGNAL - An apparatus for generating a multi-channel audio signal based on an input audio signal comprises a main signal upmixer, a section selector, a section signal upmixer and a combiner. The main signal upmixer is configured to provide a main multi-channel audio signal based on the input audio signal. The section selector is configured to select or not select a section of the input audio signal based on an analysis of the input audio signal. The selected section of the input audio signal, a processed selected section of the input audio signal or a reference signal associated with the selected section of the input audio signal is provided as section signal. The section signal upmixer is configured to provide a section upmix signal based on the section signal, and the combiner is configured to overlay the main multi-channel audio signal and the section upmix signal to obtain the multi-channel audio signal. | 10-27-2011 |
20110261968 | METHOD AND APPARATUS FOR CONTROLLING GAIN IN MULTI-AUDIO CHANNEL SYSTEM, AND VOICE PROCESSING SYSTEM - A method and an apparatus for controlling gain in a multi-audio channel system as well as a voice processing system are disclosed. The method includes: judging whether signals on any audio channels are similar or correlated; sorting audio channels of similar or correlated signals into one group if the similar or correlated signals exist on the audio channels, and using the same Automatic Gain Control (AGC) unit to process signals of this group of audio channels; and using different AGC units to process other non-similar or non-correlated signals on audio channels. The gain control apparatus includes: a judging unit, a grouping unit, a control processing unit, and at least two AGC units. Therefore, in a multi-audio channel communication, the perception of the sound locations of similar or correlated audio channels is not damaged, and the non-similar or non-correlated audio channels doe not interfere with each other. | 10-27-2011 |
20110274278 | METHOD AND APPARATUS FOR REPRODUCING STEREOPHONIC SOUND - Method and apparatus reproduce a stereophonic sound. The method includes obtaining sound depth information which denotes a distance between at least one object within a sound signal and a reference position, and providing sound perspective to the sound object output from a speaker, based on the sound depth information. | 11-10-2011 |
20110274279 | SYSTEM AND METHOD FOR ENHANCED STREAMING AUDIO - A system and method for enhancement and management of streaming audio is disclosed. In one embodiment, the system provides a client-side decoder that is compatible with numerous audio formats, so that a user can enjoy relatively high-quality audio from various sources, even from sources that do not provide multi-channel or high-quality audio data. The system and method also include a management system for managing and controlling the use of licensed signal processing software to further enhance an audio stream. In one embodiment, the management system is used to manage a signal processing module that provides psychoacoustic audio processing to create a wider soundstage, an acoustic correction process to increase the perceived height and clarity of the audio image, and bass enhancement processing to create the perception of low bass from the small speakers or headphones typically used with multi-media systems and portable audio players. | 11-10-2011 |
20110286601 | AUDIO SIGNAL PROCESSING DEVICE AND AUDIO SIGNAL PROCESSING METHOD - An audio signal processing device includes a processing unit for convoluting head-related transfer functions with audio signals of a plurality of channels, and the processing unit includes a storage unit for storing data of a double-normalized head-related transfer function by normalizing a normalized head-related transfer function obtained by normalizing a head-related transfer function in a state in which a dummy head or a person is present in a position of the listener with a transfer characteristic in a pristine state in which the dummy head or the person is not present, using a normalized head-related transfer function obtained by normalizing a head-related transfer function in the state in which the dummy head or the person is present with a transfer characteristic in the pristine state, and a convolution unit for reading the data from the storage unit and convoluting the data with the audio signals. | 11-24-2011 |
20110286602 | SYSTEM AND METHOD FOR ENHANCED STREAMING AUDIO - A system and method for enhancement and management of streaming audio is disclosed. In one embodiment, the system provides a client-side decoder that is compatible with numerous audio formats, so that a user can enjoy relatively high-quality audio from various sources, even from sources that do not provide multi-channel or high-quality audio data. The system and method also include a management system for managing and controlling the use of licensed signal processing software to further enhance an audio stream. In one embodiment, the management system is used to manage a signal processing module that provides psychoacoustic audio processing to create a wider soundstage, an acoustic correction process to increase the perceived height and clarity of the audio image, and bass enhancement processing to create the perception of low bass from the small speakers or headphones typically used with multi-media systems and portable audio players. | 11-24-2011 |
20110299690 | METHOD AND APPARATUS FOR TRANSMITTING AUDIO DATA - A method and apparatus for transmitting audio data is disclosed. In the method of sending audio data, audio data to be sent are divided into basic channel audio data and supplementary audio data for services of a high channel. When a left channel or a right channel is selected in response to a word selection signal in accordance with the standards of a serial bus, the basic channel audio data corresponding to a selected channel are sent, and at least one of the supplementary audio data is sent during the remaining time until another channel is selected in response to the word selection signal. Accordingly, audio data of a high channel, such as a 5.1 channel, can be sent without a design change using a serial bus for supporting a 2 channel, such as an I2S bus. | 12-08-2011 |
20110311059 | METHOD OF NAVIGATING IN A SOUND CONTENT - A method of navigating in a sound content wherein at least one key word is stored in association with at least two positions representative of said key word in the sound content, and wherein the method comprises: a step of displaying a representation of the sound content; during playback of the sound content, a step of detecting a current extract representative of a key word stored at a first position; a step of determining at least one second extract representative of said key word and a second position as a function of the stored positions; and a step of highlighting the position of the extracts in the representation of the sound content. | 12-22-2011 |
20110311060 | METHOD AND SYSTEM FOR SEPARATING UNIFIED SOUND SOURCE - Disclosed are a method and a system of separating and extracting unified major sound sources from a mixed musical signal. A unified sound source separation system includes a first sound source separation unit to separate a first sound source having unique time-domain and frequency-domain characteristics from a mixed musical signal which includes a plurality of sound sources using time-domain and frequency-domain characteristics, and a second sound source separation unit to separate a second sound source existing in a predetermined stereo sound image position from the mixed musical signal using stereo channel information. | 12-22-2011 |
20110311061 | CHANNEL SIGNAL GENERATION DEVICE, ACOUSTIC SIGNAL ENCODING DEVICE, ACOUSTIC SIGNAL DECODING DEVICE, ACOUSTIC SIGNAL ENCODING METHOD, AND ACOUSTIC SIGNAL DECODING METHOD - Provided is a channel signal generation device capable of avoiding a decrease in the prediction performance for predicting an L channel signal and an R channel signal from a monaural signal and achieving encoding with high sound quality. In the device, a monaural MDCT coefficient corrector ( | 12-22-2011 |
20110311062 | Loudness Modification of Multichannel Audio Signals - Scaling, by a desired amount s | 12-22-2011 |
20120008788 | SYSTEMS AND METHODS FOR GENERATING PHANTOM BASS - In many audio playback systems, frequencies below a given cut off frequency are suppressed either due to speaker constraints or safety constraints. For example, some speakers are only capable of generating signals above a certain frequency. Prolonged low frequency sound can cause damage to speakers or other components. An audio driver can be equipped with a phantom bass module which by doubling, tripling and/or quadrupling frequencies below a cutoff frequency can simulate the bass experience. The doubling, tripling and quadrupling methods disclosed provide a low complexity formulation of a frequency doubling, tripling and quadrupling. In addition, the frequency doubling, tripling and quadrupling formulations are easily adapted to multi-rate processing, where computational savings can be very high. | 01-12-2012 |
20120008789 | 3D SOUND REPRODUCING METHOD AND APPARATUS - Provided are a three-dimensional (3D) sound reproducing method and apparatus. The method includes transmitting sound signals through a head related transfer filter (HRTF) corresponding to a first elevation, generating a plurality of sound signals by replicating the filtered sound signals, amplifying or attenuating each of the replicated sound signals based on a gain value corresponding to each of speakers, through which the replicated sound signals will be output, and outputting the amplified or attenuated sound signals through the corresponding speakers. | 01-12-2012 |
20120014524 | Distributed bass - Low frequencies in an audio source are extracted and reintroduced into the remaining audio channels and a consequence of one possible setting of the invention is that the low frequencies are shared evenly across the two or more speaker thus avoiding the use of a special low frequency speaker known as a sub woofer. A further outcome of the use of the invention is the substantially even distribution of LFE audio within a listening volume and that in some instances the actual and possibly the perceived total sound pressure level of the LFE audio is greater from multiple distributed speakers than that of a single sub woofer speaker. Low frequency audio provided to multiple speakers, as proposed in this invention, can work within room boundaries to provide more effective listening positions, better sound quality and low frequency reception having dramatically reduced response ripple, i.e., dips will not be as deep, and peaks not as high. Low frequency equalisation and magnitude dependant variable frequency equalisation is used in conjunction with signal distribution and signal summing before the signal reaches one or more speakers while eliminating the need for a sub woofer speaker. | 01-19-2012 |
20120014525 | Method and apparatus for simultaneously controlling near sound field and far sound field - An apparatus and method for forming a Personal Sound Zone (PSZ) at a location of a listener are provided. An apparatus for simultaneously controlling a near sound field and a far sound field may classify the near sound field and the far sound field based on a distance between an array speaker and a listener, and may control the near sound field and the far sound field and thus, it is possible to perform focusing even when the listener is located in adjacent to the array speaker. Additionally, the apparatus may generate a directive sound source using the array speaker, and at the same time, may reduce a sound pressure in a far field, thereby reducing a sound source spreading to the far field while focusing is performed at the location of the listener. | 01-19-2012 |
20120014526 | Method for Generating a Downward-Compatible Sound Format - A method of generating an audio output signal according to a downward compatible sound format, the method including: generating a sum signal by combining a first input channel signal with a second input channel signal; and dynamically correcting the sum signal using samples of the first and second input channel signals from overlapping time windows. | 01-19-2012 |
20120014527 | SOUND SYSTEM - Methods and systems for processing audio data, such as spatial audio data, in which one or more sound characteristics of a given component of a spatial audio signal are modified in dependence on a relationship between a direction characteristic of the given component and a defined range of direction characteristics; this enhances the listening experience of the listener. A spatial audio in a format using a spherical harmonic representation of sound components is decoded by performing a transform on the spherical harmonic representation, in which the transform is based on a predefined speaker layout and a predefined rule, the predefined rule indicating a speaker gain of each speaker arranged according to the predefined layout, when reproducing sound incident form a given direction; this provides an alternative to existing method of decoding spatial audio streams, which focus on soundfield reconstruction. A plurality of matrix transforms is combined into a combined transform, and the combined transform is performed on an audio signal; this saves processing resources of the audio system being used. | 01-19-2012 |
20120014528 | SYSTEMS AND METHODS FOR AUDIO PROCESSING - Systems and methods for audio signal processing are disclosed, where a discrete number of simple digital filters are generated for particular portions of an audio frequency range. Studies have shown that certain frequency ranges are particularly important for human ears' location-discriminating capability, while other ranges are generally ignored. Head-Related Transfer Functions (HRTFs) are examples response functions that characterize how ears perceive sound positioned at different locations. By selecting one or more “location-critical” portions of such response functions, one can construct simple filters that can be used to simulate hearing where location-discriminating capability is substantially maintained. Because the filters can be simple, they can be implemented in devices having limited computing power and resources to provide location-discrimination responses that form the basis for many desirable audio effects. | 01-19-2012 |
20120020478 | INTERFACE CIRCUIT AND ELECTRONIC DEVICE USING THE SAME - An electronic device includes a processing unit for outputting a right channel audio signal and a left channel audio signal, and an interface circuit for generating a processed right channel audio signal and a processed left channel audio signal accordingly. The interface circuit includes two output units for electrically connecting two plugs of two speakers respectively. Each output unit includes a first pin, a second pin, and an anti-jam member. When a plug is inserted into the output unit, the first pin transmits the processed right channel audio signal to the plug, the second pin transmits the processed left channel audio signal to the plug, and the anti jam member is in an open state. When the plug is dependent from the output unit, the first pin is in series with the second pin by the anti jam member. | 01-26-2012 |
20120020479 | MULTIMEDIA ACOUSTICS SYSTEM HAVING AUDIO FREQUENCY DIGITAL INTERFACE - A multimedia acoustics system having the audio frequency digital interface, which includes at least a USB or IEEE1394 interface, a USB or IEEE1394 outlay sound card, a set of D type or T type audio frequency power amplifier and controlling circuit or MPU chip which match it, a PCB board and at least more than a pair of sound box. In every sound box configuring a full band loudspeaker and/or bandpass heavy undertone loudspeaker whose caliber is no more than 7 inches, the loudspeaker is configured a single diaphragm more magnet gaps and more loops which have resistance load characteristic or approximately resistance load characteristic, thereby form audio frequency digital multimedia acoustics system which has super high sensitivity and high fidelity quality and has 2.0 or 2.1 channel which is supplied by pc USB or IEEE1394 interface and 4.1-7.1 channel which is supplied by single power supply. | 01-26-2012 |
20120020480 | SYSTEMS, METHODS, AND APPARATUS FOR ENHANCED ACOUSTIC IMAGING - Methods, systems, and apparatus for using a psychoacoustic-bass-enhanced signal to drive an array of loudspeakers are disclosed. | 01-26-2012 |
20120020481 | SOUND REPRODUCTION SYSTEM AND METHOD - A sound reproduction apparatus includes: a sound source localization estimating unit ( | 01-26-2012 |
20120033818 | DRIVING OF MULTI-CHANNEL SPEAKERS - A drive system comprises a splitter ( | 02-09-2012 |
20120039475 | Active and Passive Directional Acoustic Radiating - An three-way audio system that uses directional arrays for radiating mid-frequency acoustic energy and passive directional devices to radiate the high frequencies. the system includes a left channel, a right channel, and a center channel. A crossover network separates the left channel and the right channel into low frequency content, midrange frequency content, and high frequency content. An omnidirectional acoustical device radiates acoustic energy corresponding to the low frequency content of the combined left channel, right channel and center channel. A first directional array, comprising signal processing circuitry and more than one acoustic driver, radiates acoustic energy corresponding to the midrange content of one of the left channel and right channel signal so that more acoustic energy corresponding to the midrange content of one of the left channel signal and the right channel signal is radiated laterally than in other directions. A first passive directional device, radiates acoustic energy corresponding to the high frequency content of the one of the left channel and right channel signal so that more acoustic energy corresponding to the high frequency content of the one of the left channel signal and the right channel signal is radiated laterally than in other directions. | 02-16-2012 |
20120039476 | SPEAKER - Provided are a speaker and a speaker system. The speaker includes a main unit and a sub unit. The main unit emits a sound in a first direction. The sub unit is formed integrally with the main unit and emits a sound in a second direction different from the first direction. | 02-16-2012 |
20120045065 | SURROUND SIGNAL GENERATING DEVICE, SURROUND SIGNAL GENERATING METHOD AND SURROUND SIGNAL GENERATING PROGRAM - A surround signal generating device generates surround signals of plural channels from input sound signals of two channels, and is preferably applied to an audio device, for example. A setting unit sets a correlation value between channels in the plural channels and/or a level difference of the plural channels, in accordance with a genre of a content. A surround signal generating unit generates the surround signals of the plural channels based on the correlation value and/or the level difference which are set by the setting unit. Therefore, it becomes possible to appropriately generate the surround signals having the correlation value and/or the level difference between the channels which are appropriate for the genre of the content, from a stereo sound source. | 02-23-2012 |
20120057709 | MULTIPLE CHANNEL AUDIO SYSTEM SUPPORTING DATA CHANNEL REPLACEMENT - An audio processing system is disclosed. The audio processing system may include a processor and a transmitter and may allow a surround sound system to utilize the transmission bandwidth efficiently by adaptively transmitting a supplementary data from a secondary source in addition to the audio signals of a primary source. The processor may determine a first number of channels available for audio in the transmitter and a second number of channels available in a remote receiver that is capable of receiving the audio. The processor may cause a secondary source to adaptively communicate a combination of data from a plurality of supplementary sources in some of a plurality of channels of the audio based upon the first number of channels and the second number of channels. | 03-08-2012 |
20120063603 | HOME THEATER COMPONENT FOR A VIRTUALIZED HOME THEATER SYSTEM - The present disclosure relates to a Wide Area Network (WAN) based home theater system. In one embodiment, a home theater at a subscriber premises includes multiple home theater components, which include multiple audio playback components and a video playback component. Each home theater component is enabled to receive data from and send data to a virtualized home theater service via a WAN. In operation, each home theater component receives an appropriate media content stream for the home theater component from the virtualized home theater service via the WAN and provides playback of the media content stream according to the absolute playback timestamps for the media content stream. | 03-15-2012 |
20120070005 | STEREOPHONIC SOUND REPRODUCTION SYSTEM - A stereophonic sound production system is provided which outputs audio signals in the form of sound through, for example, speakers to create virtual sound sources at desired locations in a three-dimensional space around a listener to develop a three-dimensional sound field. The virtual sound sources includes a direct sound source which produce a direct sound heard directly by the listener and N | 03-22-2012 |
20120070006 | EXTRACTION OF A MULTIPLE CHANNEL TIME-DOMAIN OUTPUT SIGNAL FROM A MULTICHANNEL SIGNAL - A digital signal processing system and method transforms pairs of channels selected from a multichannel signal into the frequency domain. Vector operations are performed upon the frequency-domain data by which signal components unique to one of the input channels are routed to one of the output channels, signal components unique to the other of the input channels are routed to another of the output channels, and signal components common to both channels are routed to a third and optionally to a fourth output channel. The frequency-domain output channels are then transformed back into the time-domain, forming a plurality of time-domain output channels. The vector operations are performed in a manner that preserves the overall information content of the input data. | 03-22-2012 |
20120076305 | Spatial Audio Mixing Arrangement - A method comprising: receiving a plurality of audio input signals in a mixer apparatus; selecting a predetermined number of active audio input signals to be used as the basis for room effect signal generation; applying the predetermined number of dedicated room effect processing units based at least partly on the selected predetermined number of audio input signals; creating a set of spatialized signals for a plurality of audio output signals; and creating the plurality of audio output signals by combining, for each output signal m, spatialized signals created for the output signal m and room effect signals from all room effect processing units. | 03-29-2012 |
20120076306 | SURROUND SOUND SYSTEM AND METHOD THEREFOR - A surround sound system comprises a receiver ( | 03-29-2012 |
20120076307 | PROCESSING OF AUDIO CHANNELS - An audio apparatus comprises a processor ( | 03-29-2012 |
20120093320 | SYSTEM AND METHOD FOR HIGH-PRECISION 3-DIMENSIONAL AUDIO FOR AUGMENTED REALITY - Techniques are provided for providing 3D audio, which may be used in augmented reality. A 3D audio signal may be generated based on sensor data collected from the actual room in which the listener is located and the actual position of the listener in the room. The 3D audio signal may include a number of components that are determined based on the collected sensor data and the listener's location. For example, a number of (virtual) sound paths between a virtual sound source and the listener may be determined The sensor data may be used to estimate materials in the room, such that the affect that those materials would have on sound as it travels along the paths can be determined In some embodiments, sensor data may be used to collect physical characteristics of the listener such that a suitable HRTF may be determined from a library of HRTFs. | 04-19-2012 |
20120099731 | ESTIMATION OF SYNTHETIC AUDIO PROTOTYPES - An approach to forming output signals both permits flexible and temporally and/or frequency local processing of input signals while limiting or mitigating artifacts in such output signals. Generally, the approach involves first synthesizing prototype signals for the output signals, or equivalently characterizing such prototypes, for example, according to their statistical characteristics, and then forming the output signals as estimates of the prototype signals, for example, as weighted combinations of the input signals. | 04-26-2012 |
20120099732 | SYSTEMS, METHODS, APPARATUS, AND COMPUTER-READABLE MEDIA FOR FAR-FIELD MULTI-SOURCE TRACKING AND SEPARATION - An apparatus for multichannel signal processing separates signal components from different acoustic sources by initializing a separation filter bank with beams in the estimated source directions, adapting the separation filter bank under specified constraints, and normalizing an adapted solution based on a maximum response with respect to direction. Such an apparatus may be used to separate signal components from sources that are close to one another in the far field of the microphone array. | 04-26-2012 |
20120099733 | AUDIO ADJUSTMENT SYSTEM - A stereo widening system and associated signal processing algorithms are described herein that can, in several embodiments, widen a stereo image with fewer processing resources than existing crosstalk cancellation systems. These system and algorithms can advantageously be implemented in a handheld device or other device with speakers placed close together, thereby improving the stereo effect produced with such devices at lower computational cost. However, the systems and algorithms described herein are not limited to handheld devices, but can more generally be implemented in any device with multiple speakers. | 04-26-2012 |
20120106742 | AUDIO CONTENT ENHANCEMENT USING BANDWIDTH EXTENSION TECHNIQUES - Methods, devices and computer program products facilitate the generation of high quality audio content. The audio content includes upper harmonics that are associated with a bass band of frequencies in order to enhance the perception of bass audio components that cannot be produced by the audio speakers. The upper harmonics are generated and processed in such a way that reduces the computational and memory requirements of the audio processing operations. The processed upper harmonics are combined with the original audio that are properly delayed to enhance the quality of the audio content. This Abstract is provided for the sole purpose of complying with the Abstract requirement rules that allow a reader to quickly ascertain the disclosed subject matter. Therefore, it is to be understood that it should not be used to interpret or limit the scope or the meaning of the claims. | 05-03-2012 |
20120106743 | Loudness Modification of Multichannel Audio Signals - Scaling, by a desired amount s | 05-03-2012 |
20120106744 | AUDITORY DISPLAY APPARATUS AND AUDITORY DISPLAY METHOD - An auditory display apparatus is provided that places sounds such that sounds whose fundamental frequencies are close to each other are not adjacent to each other. A sound transmission/reception section receives sound data. A sound analysis section analyzes the sound data, and calculates a fundamental frequency of the sound data. A sound placement section compares the fundamental frequency of the sound data with a fundamental frequency of adjacent sound data, and places the sound data such that a difference in fundamental frequency is maximized. A sound management section manages a placement position of the sound data. A sound mixing section mixes the sound data with the adjacent sound data. A sound output section outputs the sound data obtained by the mixture to a sound output device. | 05-03-2012 |
20120114125 | AUDIO SIGNAL PROCESSING DEVICES HAVING POWER SIGNAL DECODING CIRCUITS THEREIN - An audio signal receiver includes left and right audio ports that are configured to receive left and right audio signals, respectively. The audio signal receiver also includes a power signal decoding circuit that is configured to extract a DC voltage from at least one of the left and right audio signals. Furthermore, the audio signal receiver includes an audio signal processor that is responsive to the left and right audio signals, and the audio signal processor is powered by the extracted DC voltage. | 05-10-2012 |
20120114126 | Audio Format Transcoder - An audio format transcoder for transcoding an input audio signal, the input audio signal having at least two directional audio components. The audio format transcoder including a converter for converting the input audio signal into a converted signal, the converted signal having a converted signal representation and a converted signal direction of arrival. The audio format transcoder further includes a position provider for providing at least two spatial positions of at least two spatial audio sources and a processor for processing the converted signal representation based on the at least two spatial positions to obtain at least two separated audio source measures. | 05-10-2012 |
20120121092 | SINGLE ENCLOSURE SURROUND SOUND LOUDSPEAKER SYSTEM AND METHOD - A single enclosure loudspeaker system projects multi-channel surround sound into a listener's room, and so replaces multiple conventional surround channel loudspeakers. The loudspeaker system includes a pair of opposing multi transducer arrays oriented laterally toward walls or reflecting surfaces (relative to the viewing axis) within the media space. The multi-element arrays are housed in a single self-powered loudspeaker enclosure along with a single (or multiple) low-frequency electro-acoustical drive element(s). In one embodiment of the invention, surround channel program material is pre-processed by an integrated wireless transmission device that performs certain digital signal processing and channel mixing steps in advance of wireless surround signal broadcast to a receiver. | 05-17-2012 |
20120121093 | ACOUSTIC SIGNAL PROCESSING DEVICE AND ACOUSTIC SIGNAL PROCESSING METHOD - When a correlation between an L channel and an R channel of a reproduction-target sound source is considerably high, virtual sound obtained from a reproduction signal is often more likely to be localized inside the head of a listener. A device includes: a correlation analysis unit ( | 05-17-2012 |
20120128159 | Decorrelator for Upmixing Systems - An improved decorrelator is disclosed that processes an input audio signal in two separate paths. In one path, a banded phase-flip filter is applied to lower frequencies of the input audio signal. In a second path, a frequency-dependent delay is applied to higher frequencies of the input audio signal. Signals from the two paths are combined to obtain an output signal that is psychoacoustically decorrelated with the input audio signal. The decorrelated signal can be mixed with the input audio signal without generating audible artifacts. | 05-24-2012 |
20120128160 | THREE-DIMENSIONAL SOUND CAPTURING AND REPRODUCING WITH MULTI-MICROPHONES - Systems, methods, apparatus, and machine-readable media for three-dimensional sound recording and reproduction using a multi-microphone setup are described. | 05-24-2012 |
20120128161 | DEVICE AND METHOD FOR IMPROVING STEREOPHONIC OR PSEUDO-STEREOPHONIC AUDIO SIGNALS - The proposed apparatus or the proposed method permits the linear variation of the degree of correlation particularly of pseudo-stereophonic audio signals, and overall provides a comprehensive, albeit extremely simple, postprocessing option. This is desirable in telephony, for example, which, even today, is still almost fundamentally based on a mono signal, in the area of professional postprocessing of audio signals, particularly for narrowing or expanding the mapping width thereof, for obtaining stable FM stereo signals, or else in the area of high quality electronic consumer goods, the aim of which is extremely simple but efficient handling. | 05-24-2012 |
20120134499 | Audio Processing Devices, Multi-Channel Audio Application System, and Method Thereof - An audio processing device, including: an audio processing unit, for transforming a source audio signal into a first audio signal and a second audio signal, wherein if the source audio signal is an audio signal with multi-channels, the first audio signal is one of the multi-channels and the second audio signal is another one of multi-channels; a wireless communication unit, for outputting a coding signal according to the second audio signal; and a speaker unit, for outputting the first audio signal only. | 05-31-2012 |
20120134500 | DEVICE AND METHOD FOR OPTIMIZING STEREOPHONIC OR PSEUDO-STEREOPHONIC AUDIO SIGNALS - The invention permits optimum choice of those parameters which form the basis for the generation of stereophonic or pseudo-stereophonic signals. The user is provided with means for stipulating the degree of correlation, the definition range, the loudness and also further parameters of the resulting signals according to psychoacoustic aspects, and hence for preventing artifacts. | 05-31-2012 |
20120140930 | Method for Driving Loudspeakers - A circuit for operating loudspeakers includes a first, second, third and fourth loudspeaker circuit, having one input each for injecting a signal and one output each for connecting a loudspeaker input. The loudspeaker circuits are designed to amplify the injected signal and to provide the amplified signal at the outputs thereof. The loudspeaker circuits can, for example, be used for a 2.1 sound system. The three channels for a 2.1 sound system can be implemented by an amplifier circuit with four loudspeaker circuits, one loudspeaker circuit each being required for the two stereo channels left and right. A subwoofer channel can be driven differentially by two loudspeaker circuits. The stereo channels are, by contrast, only still connected to one loudspeaker circuit each, and so the stereo channels require at least one further common ground cable. | 06-07-2012 |
20120140931 | METHODS TO MIX A MULTI-CHANNEL INTO A 3-CHANNEL SURROUND - This invention is related to audio field, providing a method to downmix multi-channel sounds into a 3-channel surround sound. This invention concerns reprocessing of encoded traditional multi-channel signals and downmixing it into a 3.1-channel signal by using the principles of signal distribution and virtualization. Its hardware can be established by adding only one rear channel speaker on the basis of the 2.1 system. When comparing with the current multi-channel systems, the present invention simplifies the connections, cuts the cost, and provides ease of installation and use, and is especially suitable for achieving surround sound effect in family flat-panel TV, 3D TV or car surround speaker, and PC multimedia surround systems. | 06-07-2012 |
20120155650 | SPEAKER ARRAY FOR VIRTUAL SURROUND RENDERING - A device and method for generation of virtual surround sound with a two-way approach is provided. The device and method employs a first order head-related model designed to resemble interaural time difference localization and inter-aural level difference localization cues in the respective frequency bands while avoiding phantom imaging and excessive coloration. | 06-21-2012 |
20120155651 | SOUND FIELD ADJUSTMENT DEVICE - A sound field adjusting device reproduces signals from plural speaker pairs arranged in an acoustic space. The device supplies signals to the plural speakers, gives different delays for the respective frequency bands to the signals supplied to at least to a proximity speaker pair which is a speaker pair closest to a listening position among the plural speakers, and gives a delay of a constant delay amount regardless of the frequency band to the speaker pairs other than the speaker pair to which the delays of different delay amounts for the respective frequency bands are given. In this case, the sound field adjusting device does not perform level adjustment, and the sound field adjustment is performed by only adjusting the delay amounts. Therefore, deterioration of sound pressure balance at the position other than the listening position can be avoided, and sound pressure balance at the listening position improved. | 06-21-2012 |
20120155652 | DIFFUSING ACOUSTICAL CROSSTALK - When two loudspeakers play the same signal, a “phantom center” image is produced between the speakers. However, this image differs from one produced by a real center speaker. In particular, acoustical crosstalk produces a comb-filtering effect, with cancellations that may be in the frequency range needed for the intelligibility of speech. Methods for using phase decorrelation to fill in these gaps and produce a flatter magnitude response are described, reducing coloration and potentially enhancing dialogue clarity. These methods also improve headphone compatibility and reduce the tendency of the phantom image to move toward the nearest speaker. | 06-21-2012 |
20120170756 | IMMERSIVE AUDIO RENDERING SYSTEM - A depth processing system can employ stereo speakers to achieve immersive effects. The depth processing system can advantageously manipulate phase and/or amplitude information to render audio along a listener's median plane, thereby rendering audio along varying depths. In one embodiment, the depth processing system analyzes left and right stereo input signals to infer depth, which may change over time. The depth processing system can then vary the phase and/or amplitude decorrelation between the audio signals over time to enhance the sense of depth already present in the audio signals, thereby creating an immersive depth effect. | 07-05-2012 |
20120170757 | IMMERSIVE AUDIO RENDERING SYSTEM - A depth processing system can employ stereo speakers to achieve immersive effects. The depth processing system can advantageously manipulate phase and/or amplitude information to render audio along a listener's median plane, thereby rendering audio along varying depths. In one embodiment, the depth processing system analyzes left and right stereo input signals to infer depth, which may change over time. The depth processing system can then vary the phase and/or amplitude decorrelation between the audio signals over time to enhance the sense of depth already present in the audio signals, thereby creating an immersive depth effect. | 07-05-2012 |
20120170758 | MULTI-CHANNEL SOUND PANNER - A method and apparatus for multi-channel panning is provided. The panner can support an arbitrary number of input channels and changes to configurations to the output sound space. For example, the panner seamlessly handles changes in the number of input channels. Also, the panner supports changes to the number and positions of speakers in the output space. In one embodiment, the panner allows continuous control of attenuation and collapsing. In one embodiment, the panner keeps source channels on the periphery of the sound space when collapsing channels. In one embodiment, the panner allows control over the path by which sources collapse. | 07-05-2012 |
20120170759 | SYSTEM AND METHOD FOR ENHANCED STREAMING AUDIO - A system and method for enhancement and management of streaming audio is disclosed. In one embodiment, the system provides a client-side decoder that is compatible with numerous audio formats, so that a user can enjoy relatively high-quality audio from various sources, even from sources that do not provide multi-channel or high-quality audio data. The system and method also include a management system for managing and controlling the use of licensed signal processing software to further enhance an audio stream. In one embodiment, the management system is used to manage a signal processing module that provides psychoacoustic audio processing to create a wider soundstage, an acoustic correction process to increase the perceived height and clarity of the audio image, and bass enhancement processing to create the perception of low bass from the small speakers or headphones typically used with multi-media systems and portable audio players. | 07-05-2012 |
20120183147 | AUDIO PROCESSING APPARATUS - An audio processing section generates at least a left-front audio signal, a right-front audio signal, a second left audio signal that is the same as a left-front audio signal, and a second right audio signal that is the same as the right-front audio signal based on a left-front audio signal and a right-front audio signal supplied from an audio selector, and outputs these signals to a main output terminal, and supplies the second left audio signal and the second right audio signal also to a switch section. When a first mode is selected, the switch section selects the audio signal from the audio processing section, and supplies it to a ZONE2 output terminal. On the other hand, when modes other than the first mode are selected, the switch section selects an audio signal from the audio selector, and supplies the selected audio signal to the ZONE2 output terminal. | 07-19-2012 |
20120195434 | DEVICE AND METHOD FOR GENERATING AN AMBIENCE SIGNAL - A transient detector is provided for generating an ambience signal suitable for being emitted via loudspeakers for which there is no special loudspeaker signal to detect a transient period. A synthesis signal generator produces a synthesis signal which fulfils the transient condition on the one hand and the continuity condition for the synthesis signal on the other hand. A signal substituter will then substitute a portion of the examination signal by the synthesis signal to obtain an ambience signal for the surround channels. | 08-02-2012 |
20120195435 | Method, Apparatus and Computer Program for Processing Multi-Channel Signals - The invention relates to a method and an apparatus in which samples of at least a part of an audio signal of a first channel and a part of an audio signal of a second channel are used to produce a sparse representation of the audio signals to increase the encoding efficiency. In an example embodiment one or more audio signals are input and relevant auditory cues are determined in a time-frequency plane. The relevant auditory cues are combined to form an auditory neurons map. Said one or more audio signals are transformed into a transform domain and the auditory neurons map is used to form a sparse representation of said one or more audio signal. | 08-02-2012 |
20120207308 | INTERACTIVE SOUND PLAYBACK DEVICE - An interactive sound playback device includes two speakers, two microphones, a motion sensor, and an audio processing unit. The speakers and the microphones are disposed at two sides of the interactive sound playback device respectively. The audio processing unit is electrically connected to the speakers, the microphones, and the motion sensor, and has a recording mode and a playing mode. In the recording mode, the audio processing unit receives a motion sensing signal from the motion sensor and a first audio signal from the microphones, stores the first audio signal, and stores the motion sensing signal as position information. In the playing mode, the audio processing unit outputs the first audio signal to the speakers through a first path, or adjusts a second audio signal by referring to the motion sensing signal and the position information, and outputs the adjusted second audio signal to the two speakers through a second path. | 08-16-2012 |
20120207309 | Panning Presets - For media clips having audio content, a novel method for applying panning behaviors to the audio content is presented. The method receives a selection of a media clip having audio content and a selection of a panning preset for modifying a set of audio parameters of the audio content to create an audio panning effect. Each panning preset is associated with several sets of values where each set of values corresponds to the set of audio parameters. The audio parameters include parameters for determining a distribution of the audio content across a multi-channel output system. The method applies each the sets of values associated with the selected panning preset to successive portions of the audio content in order to control the distribution of the audio content to the multi-channel output system. | 08-16-2012 |
20120207310 | Multi-Way Analysis for Audio Processing - It is disclosed to determine, for a direction being at least associated with a value of a first direction component and with a value of a second direction component, at least one weighting factor for each basis function of a set of basis functions, each of the basis functions being associated with an audio transfer characteristic, wherein said determining is at least based on a first set of gain factors, associated with the first direction component, and on a second set of gain factors, associated with the second direction component | 08-16-2012 |
20120213375 | Audio Spatialization and Environment Simulation - Methods and apparatus are disclosed for processing an audio sound source to create four-dimensional spatialized sound. A virtual sound source may be moved along a path in three-dimensional space over a specified time period to achieve four-dimensional sound localization. The various embodiments described herein provide methods and systems for converting existing mono, 2-channel and/or multi-channel audio signals into spatialized audio signals have two or more audio channels. The incoming audio signals may be down-mixed, up-mixed or otherwise translated into fewer, greater or the same number of audio channels. The various embodiments also describe methods, systems and apparatus for generating low frequency effect and center channel signals from incoming audio signals having one or more channels. | 08-23-2012 |
20120224700 | SOUND IMAGE CONTROL DEVICE AND SOUND IMAGE CONTROL METHOD - A sound-image control device includes a sound-image controller that processes a left sound signal and a right sound signal to localize a sound image at a predetermined position. The sound-image controller performs control for enhancing a sense of depth to a sound image originally included in an input sound signal. | 09-06-2012 |
20120224701 | ACOUSTIC APPARATUS, ACOUSTIC ADJUSTMENT METHOD AND PROGRAM - An acoustic apparatus which outputs test signals from a plurality of speakers configuring a multichannel reproduction system and adjusts acoustic characteristics by picking up response signals from the speakers using a microphone, includes a test signal storage unit storing test signals output from the speakers; a response signal storage unit storing response signals from the speakers picked up by the microphone; a parameter calculation unit calculating acoustic adjustment parameters including at least a polarity reversal parameter and a phase filter parameter based on the response signals from the speakers stored in the response signal storage unit; and an acoustic adjustment parameter storage unit storing the acoustic adjustment parameters calculated by the parameter calculation unit. The parameter calculation unit calculates the polarity reversal parameter using a low-pass component of the response signals. | 09-06-2012 |
20120230496 | SCALING A PLURALITY OF SIGNALS TO PREVENT AMPLITUDE CLIPPING - Systems and methods for amplitude compressing a digital signal. An input signal is divided into frames having a first and second sets of samples. The samples in the second set are also in a subsequent frame. Peak values are determined for the first and second sets. One or more slopes are calculated based on the peak values. The slopes are used to define a scale factor which is applied to the first set to produce the output signal. For example, if the first peak value exceeds an amplitude threshold, first and last samples in the first set to exceed the amplitude threshold are found. Slopes are calculated for each of three regions of the first set demarcated by the first and last samples. In each region a slope is selected. These slopes along with an initial scale factor are used to calculate the scale factor. | 09-13-2012 |
20120237037 | N Surround - Techniques are provided to use near-field speakers to add depth information that may be missing, incomplete, or imperceptible in far-field sound waves from far-field speakers, and to remove the multi-channel cross talk and reflected sound waves that otherwise may be inherent in a listening space with the far-field speakers alone. In some possible embodiments, a calibration tone may be monitored at each of a listener's ears. The calibration tone may be emitted by two or more far-field speakers. One or more audio portions from two or more near-field speakers may be outputted based on results of monitoring the calibration tone. | 09-20-2012 |
20120237038 | AUDIO MIXER - Six input channels, to which are allocated 5.1-channel surround signals from a plurality of input sources, are grouped into a surround channel group, and these six input channels are connected to corresponding ones of six surround buses in a one-to-one relationship. Thus, merely grouping the input channels into a surround channel group allows the signals of the individual input channels (5.1-channel surround signals) to be taken out via a plurality of output destinations (5.1-channel speakers) corresponding to the surround buses. Once an instruction is given for changing a value of a parameter, the parameter is controlled in a ganged fashion in all of the input channels of the surround channel group except for an LFE input channel of the surround channel group. | 09-20-2012 |
20120243689 | APPARATUS FOR CONTROLLING DEPTH/DISTANCE OF SOUND AND METHOD THEREOF - An apparatus for controlling depth/distance of sound and method thereof are disclosed, by which an audio signal can be outputted to correspond to a depth of an image, i.e., a disparity in displaying a stereoscopic image. The present invention includes extracting at least one object from an image, measuring a depth change value in accordance with a motion of the object within the image, and changing a depth/distance level of the sound based on the depth change value of the object. | 09-27-2012 |
20120250869 | Sound Image Localization Control Apparatus - A sound image localization control apparatus includes: a distributing unit configured to produce first and second audio signals which have a time difference, from an input audio signal, and configured to supply the first audio signal to one of a plurality of speakers; and a virtual-sound source processing unit configured to produce a virtual-sound source signal for localizing a sound source at a virtual sound source position in a space where the plurality of speakers are disposed, which is to be supplied to the one of the plurality of speakers, based on the second audio signal. | 10-04-2012 |
20120263306 | Acoustic Spatial Projector - A method and system for producing an acoustic spatial projection by creating audio channels for producing an acoustic field by mixing, on a reflective surface, sounds associated with the audio channels is provided. In one embodiment, a method includes the step of using audio information to determining a set of audio channels. Each audio channel is associated with a sound source, such as one or more loudspeakers, and for a subset of the audio channels, the associated sound sources emit sound waves directed at a reflective surface prior to being received at a listening location. The method further includes steps of determining an acoustic response of a listening environment; steps of determining a delay to apply to one or more channels of the set of audio channels; and steps of determining a frequency compensation to apply to one or more channels of the audio channels. | 10-18-2012 |
20120263307 | TRANSLATING USER INTERFACE SOUNDS INTO 3D AUDIO SPACE - Translating user interface sounds into 3D audio comprises: receiving an audio request call from a process relating to a user interface event; converting the audio request call into a position in 3D audio space representative of the process from which the call has been received; and playing a corresponding sound in a surround sound system in the position in 3D audio space. Each open application in a graphical user interface may be provided with a sound space, in the 3D audio space, from which any event sounds are played. | 10-18-2012 |
20120269349 | METHOD AND APPARATUS FOR REPRODUCING THREE-DIMENSIONAL SOUND FIELD - Provided is a method and apparatus for reproducing a three-dimensional (3D) sound field. A method of reproducing a 3D sound field may determine a control region based on a wavelength of an excitation frequency, set, based on a loudspeaker array, at least one candidate control point in the control region, and determine a non-uniform control point corresponding to a non-uniform loudspeaker. | 10-25-2012 |
20120269350 | AUDIO DATA PROCESSING APPARATUS, AUDIO APPARATUS, AND AUDIO DATA PROCESSING METHOD - An audio data processing apparatus and the like are provided in which waveform distortion generated when a virtual sound source moves is resolved so that noise caused by waveform distortion is reduced remarkably. The present invention includes: a step of calculating distances measured at different time points between the position of the virtual sound source and a speaker; a step of, when these distances are different from each other, judging whether the virtual sound source is departing or approaching relative to the speaker; and a step of identifying and correcting the part of waveform distortion depending on departing or approaching. | 10-25-2012 |
20120269351 | AUDIO DATA PROCESSING APPARATUS, AUDIO APPARATUS, AND AUDIO DATA PROCESSING METHOD - An audio data processing apparatus and the like are provided in which waveform distortion generated when a virtual sound source moves relative to a speaker is processed by linear interpolation so that the speed of correction processing is achieved. This apparatus has: calculating means calculating first and second distances measured at two time points from the position of the speaker to the position of the virtual sound source; identifying means, when the first and the second distances are different from each other, identifying a distorted part in the audio data at the two time points; and correcting means correcting the audio data of the identified part by interpolation using a function. | 10-25-2012 |
20120275604 | Processing Stereophonic Audio Signals - Method, apparatus and computer program product for processing an input stereophonic audio signal to thereby generate a converted stereophonic audio signal representing the input stereophonic audio signal, the input stereophonic audio signal comprising a left input audio signal and a right input audio signal, and the converted stereophonic audio signal comprising a first converted audio signal and a second converted audio signal. The first converted audio signal is generated based on the sum of the left input audio signal and the right input audio signal. The second converted audio signal is generated based on the difference between a first function of the left input audio signal and a second function of the right input audio signal. The first and second functions are adjustable to thereby adjust at least one characteristic of the converted stereophonic audio signal. | 11-01-2012 |
20120275605 | Audio Playback - A multifunctional device is disclosed capable of audio playback. The device includes a receiver ( | 11-01-2012 |
20120275606 | METHOD OF AND DEVICE FOR GENERATING AND PROCESSING PARAMETERS REPRESENTING HRTFs - A method of generating parameters representing Head-Related Transfer Functions, the method comprising the steps of a) sampling with a sample length (n) a first time-domain HRTF impulse response signal using a sampling rate (fs) yielding a first time-discrete signal, b) transforming the first time-discrete signal to the frequency domain yielding a first frequency-domain signal, c) splitting the first frequency-domain signal into sub-bands, and d) generating a first parameter of the sub-bands based on a statistical measure of values of the sub-bands. | 11-01-2012 |
20120288099 | METHOD, MEDIUM, AND SYSTEM ENCODING/DECODING MULTI-CHANNEL SIGNAL - A multi-channel signal decoding method is provided. A down-mixed signal representative of a multi-channel signal is decoded, and parameters representing characteristic relations between channels of the multi-channel signal are decoded. An additional parameter is estimated by using the decoded parameters, and the decoded down-mixed signal is up-mixed by using the decoded parameters and the estimated parameter so as to decode the multi-channel signal. | 11-15-2012 |
20120294446 | BLIND SOURCE SEPARATION BASED SPATIAL FILTERING - A method for blind source separation based spatial filtering on an electronic device includes obtaining a first source audio signal and a second source audio signal. The method also includes applying a blind source separation filter set to the first source audio signal and to the second source audio signal to produce a spatially filtered first audio signal and a spatially filtered second audio signal. The method further includes playing the spatially filtered first audio signal over a first speaker to produce an acoustic spatially filtered first audio signal and playing the spatially filtered second audio signal over a second speaker to produce an acoustic spatially filtered second audio signal. The acoustic spatially filtered first audio signal and the acoustic spatially filtered second audio signal produce an isolated acoustic first source audio signal at a first position and an isolated acoustic second source audio signal at a second position. | 11-22-2012 |
20120300943 | AUDIO SIGNAL PROCESSING APPARATUS AND AUDIO SIGNAL PROCESSING METHOD - An audio signal processing apparatus and an audio signal processing method are provide. The audio signal processing apparatus comprises: a plurality of individual audio interfaces, an audio signal processing unit, and an audio channel splitting unit. The audio signal processing unit is utilized for determining a total number of audio channels corresponding to the individual audio interfaces and generating a first output audio signal with a first number of audio channels according to an input audio signal and the total number of audio channels when the audio signal processing apparatus is operated under a first operational mode. The audio channel splitting unit is coupled to the audio signal processing unit and the audio interfaces. When the audio signal processing apparatus is operated under the first operational mode, the audio channel splitting unit splits the first output audio signal with the first number of audio channels to the audio interfaces, respectively. | 11-29-2012 |
20120300944 | MEDIA DISTRIBUTION SYSTEM - A system and method for distributing media data such that the output of that media by a plurality of devices is synchronised. A source device is connected to a plurality of output devices by a plurality of Bluetooth connections and transmits media data and associated indications of time to the output devices. The output devices output the media at the time indicated. | 11-29-2012 |
20120300945 | Stereo Coding Method and Apparatus - A stereo coding method includes transforming a stereo left channel signal and a stereo right channel signal in a time domain to a frequency domain to form a left channel signal and a right channel signal in the frequency domain; down-mixing the left channel signal and the right channel signal in the frequency domain to generate a monophonic down-mix signal, and transmitting bits obtained after quantization coding is performed on the down-mix signal; extracting spatial parameters of the left channel signal and the right channel signal in the frequency domain; estimating a group delay and a group phase between stereo left and right channels by using the left channel signal and the right channel signal in the frequency domain; and performing quantization coding on the group delay, the group phase and the spatial parameters, so as to obtain a high-quality stereo coding performance at a low bit rate. | 11-29-2012 |
20120308014 | AUDIO PLAYBACK DEVICE AND METHOD - A method and apparatus is for outputting audio files to a user to enable selection of one of the audio files by the user. At least two independent audio files are played simultaneously, distributed differently over a set of speakers, thereby to appear to the user to originate from different directions. This enables a faster selection process by the user. | 12-06-2012 |
20120308015 | METHOD AND APPARATUS FOR STEREO TO FIVE CHANNEL UPMIX - An apparatus comprising at least one processor and at least one memory including computer program code The at least one memory and the computer program code is configured to, with the at least one processor, cause the apparatus at least to perform determining a covariance matrix for at least one frequency band of a first and a second audio signal, non-negative factorizing the covariance matrix to determine at least one first weighting value and at least one second weighting value associated with the at least one frequency band; and determining a third audio signal associated with the at least one frequency band by combining the first weighting value and the first audio signal to the second weighting value and the second audio signal. | 12-06-2012 |
20120314871 | INFORMATION PROCESSING APPARATUS, INFORMATION PROCESSING METHOD, AND PROGRAM - An information processing apparatus includes a storage, a sensor, a controller, and a sound output unit. The storage is capable of storing a plurality of sound information items associated with respective positions. The sensor is capable of detecting a displacement of one of the information processing apparatus and a user of the information processing apparatus. The controller is capable of extracting at least one sound information satisfying a predetermined condition out of the plurality of stored sound information items and generating, based on the detected displacement, multichannel sound information obtained by localizing the extracted sound information at the associated position. The sound output unit is capable of converting the generated multichannel sound information into stereo sound information and outputting it. | 12-13-2012 |
20120314872 | SYSTEM AND METHOD FOR PROCESSING AN INPUT SIGNAL TO PRODUCE 3D AUDIO EFFECTS - A processing system for processing an input signal to produce three-dimensional audio effects is disclosed. The processing system comprises: a cue sending path configured to extract a set of binaural cues from the input signal and further configured to send at least a portion of the extracted set of binaural cues to at least one directional loudspeaker for transmission; and an ambience sending path configured to send at least a part of the input signal comprising ambience sounds to at least one conventional loudspeaker for transmission. | 12-13-2012 |
20120314873 | SYSTEM FOR OBJECTIVE QUALIFICATION OF LISTENER ENVELOPMENT OF A LOUDSPEAKER-ROOM ENVIRONMENT - A system quantifies listener envelopment in a loudspeakers-room environment. The system includes a binaural detector that receives frequency modulated audible noise signals from multiple loudspeakers. The binaural detector generates detected signals that are analyzed to determine an objective listener envelopment. The envelopment is based on binaural activity of one or more sub-bands of the detected signal. | 12-13-2012 |
20120328107 | AUDIO METRICS FOR HEAD-RELATED TRANSFER FUNCTION (HRTF) SELECTION OR ADAPTATION - A method includes detecting, via a first microphone coupled to a user's left ear, a sound, detecting, via a second microphone coupled to the user's right ear, the sound, determining a time difference between detection of the sound at the first microphone and detection of the sound at the second microphone, and estimating a user's head size based on the time difference. The method also includes identifying a head-related transfer function (HRTF) associated with the user's head size or modifying, a HRTF based on the user's head size. The method further includes applying the identified HRTF or modified HRTF to audio signals to produce output signals and forwarding the output signals to first and second speakers coupled to the user's left and right ears. | 12-27-2012 |
20120328108 | ACOUSTIC CONTROL APPARATUS - According to an embodiment, a control filter coefficient is calculated in such a manner that a second spatial average of one or more complex sound pressure ratios at one or more target binaural positions when a first loudspeaker and a second loudspeaker emit a second acoustic signal and a first acoustic signal is approximated to a first spatial average of one or more complex sound pressure ratios at the one or more target binaural positions when a target virtual acoustic source emits the first acoustic signal. | 12-27-2012 |
20120328109 | SPATIAL SOUND REPRODUCTION - An apparatus for spatial sound reproduction comprises a receiver ( | 12-27-2012 |
20120328110 | DECORRELATING AUDIO SIGNALS FOR STEREOPHONIC AND SURROUND SOUND USING CODED AND MAXIMUM-LENGTH-CLASS SEQUENCES - Methods and systems for processing an audio signal are provided. The method includes generating a pseudorandom sequence and generating at least one reciprocal of the pseudorandom sequence such that the at least one reciprocal is substantially decorrelated with the pseudorandom sequence. The pseudorandom sequence and the at least one reciprocal form a set of sequences. The method further includes convolving the audio signal with the set of sequences to generate a corresponding number of output signals and providing the number of output signals to a corresponding number of loudspeakers. | 12-27-2012 |
20130010968 | Sound Processing Apparatus - In a sound processing apparatus, a matrix factorization unit acquires a non-negative first basis matrix including a plurality of basis vectors that represent spectra of sound components of a first sound source, and acquires an observation matrix that represents time series of a spectrum of a sound signal corresponding to a mixed sound of the first sound source and a second sound source different from the first sound source. The matrix factorization unit generates a first coefficient matrix, a second basis matrix and a second coefficient matrix from the observation matrix by non-negative matrix factorization using the first basis matrix. A sound generation unit generates either of a sound signal according to the first basis matrix and the first coefficient matrix or a sound signal according to the second basis matrix and the second coefficient matrix. | 01-10-2013 |
20130010969 | METHOD AND APPARATUS FOR REPRODUCING THREE-DIMENSIONAL SOUND - Stereophonic sound is reproduced by acquiring image depth information indicating a distance between at least one object in an image signal and a reference location, acquiring sound depth information indicating a distance between at least one sound object in a sound signal and a reference location based on the image depth information, and providing sound perspective to the at least one sound object based on the sound depth information. | 01-10-2013 |
20130016842 | APPARATUS AND A METHOD FOR CONVERTING A FIRST PARAMETRIC SPATIAL AUDIO SIGNAL INTO A SECOND PARAMETRIC SPATIAL AUDIO SIGNAL - An apparatus for converting a first parametric spatial audio signal representing a first listening position or a first listening orientation in a spatial audio scene to a second parametric spatial audio signal representing a second listening position or a second listening orientation is described, the apparatus including: a spatial audio signal modification unit adapted to modify the first parametric spatial audio signal dependent on a change of the first listening position or the first listening orientation so as to obtain the second parametric spatial audio signal, wherein the second listening position or the second listening orientation corresponds to the first listening position or the first listening orientation changed by the change. | 01-17-2013 |
20130022204 | LOCATION DETECTION USING SURROUND SOUND SETUP - Methods and device are provided for calibrating one or more components of a home theater system. In one embodiment a method includes detecting a command to calibrate a home theater system, providing a prompt based on the command to request a voiced response, and receiving a sound signal associated with a user in response to the prompt, the sound signal detected by at least one speaker of the home theater system. The method may further include determining a position of the user based on the sound signal, and calibrating at least one component of the home theater system based on the position. | 01-24-2013 |
20130022205 | BINAURAL DECODER TO OUTPUT SPATIAL STEREO SOUND AND A DECODING METHOD THEREOF - A binaural decoder for an MPEG surround stream, which decodes an MPEG surround stream into a stereo 3D signal, and a decoding method thereof. The method includes dividing a compressed audio stream and head related transfer function (HRTF) data into subbands, selecting predetermined subbands of the HRTF data divided into subbands and filtering the HRTF data to obtain the selected subbands, decoding the audio stream divided into subbands into a stream of multi-channel audio data with respect to subbands according to spatial additional information, and binaural-synthesizing the HRTF data of the selected subbands with the multi-channel audio data of corresponding subbands. | 01-24-2013 |
20130022206 | SPATIAL AUDIO PROCESSOR AND A METHOD FOR PROVIDING SPATIAL PARAMETERS BASED ON AN ACOUSTIC INPUT SIGNAL - A spatial audio processor for providing spatial parameters based on an acoustic input signal has a signal characteristics determiner and a controllable parameter estimator. The signal characteristics determiner is configured to determine a signal characteristic of the acoustic input signal. The controllable parameter estimator for calculating the spatial parameters for the acoustic input signal in accordance with a variable spatial parameter calculation rule is configured to modify the variable spatial parameter calculation rule in accordance with the determined signal characteristic. | 01-24-2013 |
20130028423 | THREE DIMENSIONAL SOUND POSITIONING SYSTEM - A system and method provides three dimensional audio positioning. A user interface may comprise a sound space editor, a space effects editor, an input controller, an output controller, an animation path including a plurality of nodes in three dimensional space, and a timeline for defining timing of one or more audio signals through the animation path, and an output controller for providing output audio data from the user interface. | 01-31-2013 |
20130028424 | METHOD AND APPARATUS FOR PROCESSING AUDIO SIGNAL - An audio signal processing apparatus including an index estimation unit that receives three-dimensional image information as an input and generates index information for applying a three-dimensional effect to an audio object in at least one direction of right, left, up, down, front, and back directions, based on the three-dimensional image information; and a rendering unit for applying a three-dimensional effect to the audio object in at least one direction of right, left, up, down, front, and back directions, based on the index information. | 01-31-2013 |
20130039496 | SYSTEM AND METHOD FOR DISTRIBUTED AUDIO RECORDING AND COLLABORATIVE MIXING - Two or more wireless devices can be independently controlled by their respective users, a mixer component, or a leader wireless device to perform audio recording, convert the recorded audio into a standard or proprietary audio stream format, and transmit the audio stream to a server. The real-time clocks of two or more participating wireless devices can be synchronized. A wireless device can insert timestamps into the audio stream to facilitate the mixing operation. Mixing of the two or more audio streams recorded by wireless devices can be performed by a mixer component either in real time (contemporaneously with the recording) or asynchronously with respect to the recording. The mixing can be performed in a fully automated mode, and/or in an operator-assisted mode. | 02-14-2013 |
20130051561 | SOUND REPRODUCTION DEVICE - There is provided a sound reproduction device including a left channel housing unit that accommodates at least a left channel driver unit outputting a left channel sound, a left channel microphone recording an external sound, and a left channel micro-computer controlling a setting for a noise cancelling processing based on a recording signal of the left channel microphone; and a right channel housing unit that accommodates at least a right channel driver unit outputting a right channel sound, a right channel microphone recording an external sound, and a right channel micro-computer controlling a setting for a noise cancelling processing based on a recording signal of the right channel microphone. The left channel micro-computer and the right channel micro-computer are configured to communicate data with each other. | 02-28-2013 |
20130051562 | SOUND REPRODUCING DEVICE - A sound reproducing device includes: a plug section configured to receive input of L-channel and R-channel audio signals; an L-channel housing section including at least an L-channel driver unit configured to produce sound on the basis of the L-channel audio signal, an L-channel microphone configured to collect external sound, and an L-channel microcomputer configured to perform setting control on noise-canceling processing on the basis of a collected sound signal of the microphone; an R-channel housing section including a same corresponding configuration as those of the L-channel housing section; and an in-cord housing section formed so as to be inserted in a wiring cord for supplying the signals inputted from the plug section to the L-channel and the R-channel housing sections, wherein the in-cord housing section is provided with a communication terminal for allowing data communication between the L-channel microcomputer and the R-channel microcomputer, and an external apparatus. | 02-28-2013 |
20130064374 | SIGNAL PROCESSING APPARATUS AND METHOD FOR PROVIDING 3D SOUND EFFECT - A signal processing apparatus and method providing a 3-dimensional (3D) sound effect may determine a mask related to an ambience of an input signal, separate the input signal into a primary signal and an ambience signal using the mask, decorrelate the ambience signal, and sum the decorrelated ambience signal and the primary signal, accordingly generating an output signal to which a sound effect is applied. | 03-14-2013 |
20130064375 | System and Method for Fast Binaural Rendering of Complex Acoustic Scenes - An embodiment in accordance with the present invention provides a system and method for binaural rendering of complex acoustic scenes. The system includes a computing device configured to process a sound recording of the acoustic scene to produce a binaurally rendered scene for the listener. The system also includes a position sensor configured to collect motion and position data for a head of the user and also configured to transmit said motion and position data to the computing device. A sound delivery device is configured to receive the binaurally rendered acoustic scene from the computing device and to transmit the acoustic scene to the ears of the listener. In the system, the computing device is further configured to utilize the motion and position data from the inertial motion sensor to process the sound recording of the acoustic scene with respect to the motion and position of the user's head. | 03-14-2013 |
20130064376 | Camera Driven Audio Spatialization - A camera input can be used by the computer to support audio spatialization or to improve audio spatialization of an application that already supports it. A computer system may to support audio spatialization, for example, by modifying the relative latency or relative amplitude of the rendered audio packets. If a sound is intended, for example, to be located on the left side of the user, then the audio channel that is rendered on the headset speaker located on the user's left ear may have a somewhat decreased latency and increased amplitude compared to the other audio channel. | 03-14-2013 |
20130070927 | SYSTEM AND METHOD FOR SOUND PROCESSING - A sound processing system receives a stereo signal which, by a segmenter ( | 03-21-2013 |
20130077792 | PSYCHOACOUSTIC INTERFACE - An audio imaging method and cognition interface for two-loudspeaker playback is intended for use with standard stereo recordings. The process applies new azimuth-based equalization and phase measurements specifically derived for stereo playback while faithfully interfacing with and eliciting human psychoacoustic localization responses via the Fletcher-Munson loudness effect. The process accurately recovers and reproduces three-dimensional sonic image locations inherently encoded in standard recordings so that a listener may accurately perceive the three-dimensional sound. Sound images are reproduced in at least the forward 180° free-field environment of the listener. The apparatus is designed to allow reproduction of atypical recordings made with closely-spaced microphones if desired. | 03-28-2013 |
20130089208 | SYSTEMS AND METHODS FOR ENHANCING AUDIO CONTENT - Systems and methods operate on multi-channel audio content having audio content spanning a plurality of frequency bands. The process can be configured to analyze audio content to identify one or more frequency bands of the plurality of frequency bands associated with a first channel having a signal level below a predetermined threshold; increase the gain of the identified frequency band(s) in the first channel; altering the gain of the identified frequency band(s) in the second channel relative to the first channel; phase shifting the first channel relative to the second channel to create modified first and second channels; creating a master channel signal comprising the modified first and second channels; separating the master channel signal into a plurality of frequency bands; and processing each frequency band in the master channel with an audio compressor to adjust attack and release times of master channel signals in multiple frequency bands. | 04-11-2013 |
20130094653 | VOIP DEVICE, VOIP CONFERENCING SYSTEM, AND RELATED METHOD - Voice over internet protocol (VoIP) devices and conferencing systems may include a spatial encoder associated with a first endpoint and a spatial renderer associated with a second endpoint. The spatial renderer may configured to receive audio data. The audio data may be rendered among a plurality of speakers based on a first set of spatial information for a plurality of microphones associated with the first endpoint, and a second set of spatial information for the plurality of speakers associated with the second endpoint. A method for generating a sound field may include determining spatial information for a plurality of microphones in a local room, determining spatial information for a plurality of speakers in a remote room, mapping the spatial information for the plurality of microphones and the spatial information for the plurality of speakers, and generating a sound field in the remote room based on the mapping. | 04-18-2013 |
20130101122 | APPARATUS FOR GENERATING AND PLAYING OBJECT BASED AUDIO CONTENTS - Disclosed is an object based audio contents generating/playing apparatus. The object based audio contents generating/playing apparatus may include an object audio signal obtaining unit to obtain a plurality of object audio signals by recording a plurality of sound source signals, a recording space information obtaining unit to obtain recording space information with respect to a recording space of the plurality of sound source signals, a sound source location information obtaining unit to obtain sound location information of the plurality of sound source signals, and an encoding unit to generate object based audio contents by encoding at least one of the plurality of object audio signals, the recording space information, and the sound source location information, thereby enabling the object based audio contents to be played using at least one of a WFS scheme and a multi-channel surround scheme regardless of a reproducing environment of the audience. | 04-25-2013 |
20130108053 | GENERATING A STEREO AUDIO DATA PACKET | 05-02-2013 |
20130108054 | METHOD AND DEVICE FOR PRODUCING A DOWNWARD COMPATIBLE SOUND FORMAT | 05-02-2013 |
20130108055 | DYNAMIC VOLUME CONTROL AND MULTI-SPATIAL PROCESSING PROTECTION | 05-02-2013 |
20130108056 | AUDIO SIGNAL PROCESSING DEVICE | 05-02-2013 |
20130108057 | Sound Processing Apparatus | 05-02-2013 |
20130114817 | METHOD AND APPARATUS FOR ESTIMATING INTERCHANNEL DELAY OF SOUND SIGNAL - A method and an apparatus for estimating an interchannel delay of a sound signal are disclosed, related to the communication field and capable of realizing a stable sound field in a crosstalk. The method includes: calculating an error between an actual interchannel phase difference and a predicted interchannel phase difference of a sound signal, where the predicted interchannel phase difference is predicted according to a predetermined interchannel delay of the sound signal; determining whether the sound signal is a sound signal in a crosstalk according to the error; and if the sound signal is a sound signal in the crosstalk, setting an interchannel delay corresponding to the sound signal to a fixed value | 05-09-2013 |
20130142338 | Virtual Reality Sound Source Localization Apparatus - The present invention provides an apparatus with sound source localization. Spatial information and original audios are synthesized by a mono signal analyzer/synthesizer of a multi-channel system to obtain a three-dimensional (3D) virtual reality sound effect. By extracting and synthesizing spatial parameters, only original audio objects and spatial location data are required to obtain an effect of multi-channel spatial audio. Thus, a multi-channel playback system is formed with a small bit stream in transference to obtain Doppler effect on simulating moving of audio objects in real life. | 06-06-2013 |
20130142339 | REDUCTION OF SPURIOUS UNCORRELATION IN FM RADIO NOISE - The document relates to audio signal processing, in particular to a system and a corresponding method for improving an audio signal of an FM stereo radio receiver, in this context, one aspect relates to the estimation of noise in a received side signal and the compensation of such noise in parametric stereo parameters. A system for generating a parametric stereo parameter from a two-channel audio signal is described. The two-channel audio signal is presentable as a mid signal and side signal representative of a corresponding left and right audio signal. The system comprises a noise estimation stage configured to determine an impact factor characteristic for the noise of the side signal; and a parametric stereo parameter estimation stage configured to determine the parametric stereo parameter; wherein the determining is based on the two-channel audio signal and the impact factor. | 06-06-2013 |
20130142340 | CONCEALMENT OF INTERMITTENT MONO RECEPTION OF FM STEREO RADIO RECEIVERS - The present invention relates to audio signal processing. In particular, it relates to a method and system for reliably concealing intermittent mono reception of FM stereo radio receivers. The system comprises a parametric stereo parameter estimation stage configured to determine a first parametric stereo parameter based on a first frame of the received two-channel audio signal. The system further comprises a concealment detection stage configured to determine an energy of a side signal within the first signal frame; determine a number of following successive signal frames during which the energy of the side signal drops from a value above the high threshold to a value below a low threshold; determine that the two-channel audio signal following the first signal frame is a forced mono signal if the number of successive signal frames is below a frame threshold; and determine the parametric stereo parameter based on the first parametric stereo parameter. | 06-06-2013 |
20130148811 | Electronic Devices, Methods, and Computer Program Products for Determining Position Deviations in an Electronic Device and Generating a Binaural Audio Signal Based on the Position Deviations - An electronic device includes an audio input module that is configured to determine a baseline audio position for the electronic device, receive at least one position offset input signal, and determine a position offset of the electronic device relative to the baseline audio position based on the at least one position offset input signal and an audio three-dimensional (3D) engine that is configured to generate a binaural audio signal based on the position offset of the electronic device. | 06-13-2013 |
20130148812 | METHOD AND DEVICE FOR ENHANCED SOUND FIELD REPRODUCTION OF SPATIALLY ENCODED AUDIO INPUT SIGNALS - A method for sound field reproduction into a listening area of spatially encoded first audio input signals according to sound field description data using an ensemble of physical loudspeakers. The method includes computing reproduction subspace description data from loudspeaker positioning data describing the subspace in which virtual sources can be reproduced with the physically available setup. Then, second and third audio input signals with associated sound field description data, in which second audio input signals include spatial components of the first audio input signals located within the reproducible subspace and third audio input signals include spatial components of the first audio input signals located outside of the reproducible subspace. A spatial analysis is performed on second audio input signals to extract fourth audio input signals corresponding to localizable sources within the reproducible subspace with associated source positioning data. Components of second audio input signals after spatial analysis are merged with third audio input signals into fifth audio input signals with associated sound field description data for reproduction within the reproducible subspace. Loudspeaker alimentation signals are computed from fourth and fifth audio input signals. | 06-13-2013 |
20130156198 | AUTOMATED USER/SENSOR LOCATION RECOGNITION TO CUSTOMIZE AUDIO PERFORMANCE IN A DISTRIBUTED MULTI-SENSOR ENVIRONMENT - A wireless device is provided that makes use of other nearby audio transducer devices to generate a surround sound effect for a targeted user. To do this, the wireless device first ascertains whether there are any nearby external microphones and/or loudspeaker devices. An internal microphone for the wireless device and any other nearby external microphones may be used to ascertain a location of the desired/targeted user as well as the nearby loudspeaker devices. This information is then used to generate a surround sound effect for the desired/targeted user by having the wireless device steer audio signals to its internal loudspeakers and/or the nearby external loudspeaker devices. | 06-20-2013 |
20130156199 | HANDHELD COMPUTING DEVICE CASE WITH AUDIO OUTPUT - A case for a handheld computing device is disclosed. The case includes a housing sized and dimensioned to receive a handheld computing device securely therein. A data port is configured to electrically connect to the data connector on the handheld computing device. A microprocessor is electrically connected to the data port. The microprocessor is configured and arranged to authorize audio stored on the handheld computing device to play through the data connector and connected data port. Audio filters are electrically connected to the data port. An audio output electrically connector to the audio filters. The case provides that audio may be played through the audio output with wider gain and dynamic range than a standard integrated headphone audio jack of a handheld computing device | 06-20-2013 |
20130156200 | DECODING DEVICE AND DECODING METHOD - A decoding device includes a decoder configured to separate a first signal obtained by performing down-mix on original signals of a plurality of channels, a residual signal representing a component of a difference between the original signals and the first signal, and spatial information representing the relationship among the original signals of the plurality of channels from an input signal which is obtained by multiplexing the first signal, the residual signal, and the spatial information and decode the separated encoded first signal, the encoded residual signal, and the encoded spatial information; a decorrelation signal generation unit configured to generate a decorrelation signal as decorrelation of the first signal decoded by the decoder; a residual signal determination unit configured to determine whether a level of the residual signal decoded by the decoder is equal to or smaller than a predetermined residual threshold value; a second-signal generation unit. | 06-20-2013 |
20130156201 | AUDIO CONTROL DEVICE AND AUDIO CONTROL METHOD - An audio control device capable of confirming without the use of sight which sound source stereoscopically located in a virtual space has been selected. This audio control device performs processing related to a sound source stereoscopically located in a virtual space, wherein the device has: a pointer position calculation unit ( | 06-20-2013 |
20130163765 | EVENT NOTIFICATION ON A MOBILE DEVICE USING BINAURAL SOUNDS - In one example, information is presented to a user through an electronic device in a non-visual manner. In this example, an informational event is received. Next, a determination is made if the informational event has been previously associated with a binaural sound sequence, the binaural sound sequence includes a user's nominal ear spacing for sound localization in a 3D space. The binaural sound sequence is presented to a multimedia port, in response to a binaural sound sequence being previously associated with the event. The localization in the 3D space using a binaural sound can be associated with importance, future times, source of information associated with the event, a person associated with the event, or a combination thereof. | 06-27-2013 |
20130163766 | Spectrally Uncolored Optimal Crosstalk Cancellation For Audio Through Loudspeakers - A method and system for calculating the frequency-dependent regularization parameter (FDRP) used in inverting the analytically derived or experimentally measured system transfer matrix for designing and/or producing crosstalk cancellation (XTC) filters relies on calculating the FDRP that results in a flat amplitude vs frequency response at the loudspeakers, thus forcing XTC to be effected into the phase domain only and relieving the XTC filter from the drawbacks of audible spectral coloration and dynamic range loss. When the method and system are used with any effective optimization technique, it results in XTC filters that yield optimal XTC levels over any desired portion of the audio band, impose no spectral coloration on the processed sound beyond the spectral coloration inherent in the playback hardware and/or loudspeakers, and cause no (or arbitrarily low) dynamic range loss. | 06-27-2013 |
20130170647 | SOUND FIELD CALIBRATION USING LISTENER LOCALIZATION - Systems, methods, and apparatus to calibrate sounds fields are disclosed. An example device includes a location sensor receiving location data, a processor triangulating the position of a listener based on the location data, and an audio processing component generating a sound field with audio characteristics based on the position of the listener. | 07-04-2013 |
20130170648 | SURROUND SIGNAL GENERATING DEVICE, SURROUND SIGNAL GENERATING METHOD and SURROUND SIGNAL GENERATING PROGRAM - A surround signal generating device includes: a surround signal generating unit which subtracts a sound signal obtained by multiplying a first gain by an inputted sound signal of a right channel from an inputted sound signal of a left channel so as to generate a surround signal of the left channel, and which subtracts a sound signal obtained by multiplying a second gain by the inputted sound signal of the left channel from the inputted sound signal of the right channel so as to generate a surround signal of the right channel; and a gain setting unit which sets the first gain and the second gain so that a correlation between the surround signal of the left channel and the surround signal of the right channel which are generated by the surround signal generating unit realizes a correlation between surround signals of an actual content having a surround sound. | 07-04-2013 |
20130177158 | METHOD FOR SENDING MULTIPLE PCM AUDIO CHANNELS OVER AN INDUSTRY-STANDARD STEREO LINK - A system and method for sending a multi-channel PCM audio stream over a link. An encoder combines a plurality of individual PCM audio channels into a multi-channel audio stream and encodes the multi-channel audio stream to maintain channel order, wherein encoding includes using a bit of one of the encoded channels to mark the encoded channel as a first channel. A transmitter transmits the encoded multi-channel audio stream over the link. A receiver receives the transmitted and encoded multi-channel audio stream and recovers the encoded multi-channel audio stream and one or more clocks. A decoder locates the first channel and de-interleaves the multiple audio streams into individual PCM-encoded audio channels, wherein locating includes looking for the bit that marks the first channel. | 07-11-2013 |
20130177159 | INTERCONNECTED SPEAKER SYSTEM - A system that alters the frequency and/or phase response to attenuate the signal to a first internal channel within a speaker box having two speakers so as to minimize interference with the second speaker when reproducing a mono signal (either left or right) in an interconnected stereo system. | 07-11-2013 |
20130182852 | DIRECT-DIFFUSE DECOMPOSITION - There is disclosed methods and apparatus for decomposing a signal having a plurality of channels into direct and diffuse components. The correlation coefficient between each pair of signals from the plurality of signals may be estimated. A linear system of equations relating the estimated correlation coefficients and direct energy fractions of each of the plurality of channels may be constructed. The linear system may be solved to estimate the direct energy fractions. A direct component output signal and a diffuse component output signal may be generated based in part on the direct energy fractions. | 07-18-2013 |
20130202115 | AUDIO PROCESSING APPARATUS - A pre-out terminal that outputs the audio signal is fixed. One of a surround back left audio signal SBL, a left outside audio signal LW, and a left upside audio signal LH is selected by a user operation, and output to a pre-out terminal | 08-08-2013 |
20130202116 | Apparatus and Method for the Time-Oriented Evaluation and Optimization of Stereophonic or Pesudo-Stereophonic Signals - The present invention relates to devices and methods for producing stereophonic or pseudostereophonic signals. In particular, the interrelations between spatial and technical parameters are examined and new ways of optimizing said parameters are proposed. Furthermore, inverse problems are applied in an unexpected manner to optimization problems pertaining to the conversion. The invention is relevant particularly to the encoding of audio signals. | 08-08-2013 |
20130202117 | METHODS OF USING HEAD RELATED TRANSFER FUNCTION (HRTF) ENHANCEMENT FOR IMPROVED VERTICAL- POLAR LOCALIZATION IN SPATIAL AUDIO SYSTEMS - A method of enhancing vertical polar localization of a head related transfer function (HRTF). The method includes splitting an audio signal and generating left and right output signal by enhancing a left lateral magnitude of the respective signal by determining a log lateral component of the respective frequency-dependent audio gain that is equal to a median log frequency-dependent audio gain for all audio signals of that channel having an desired one of the plurality of perceived source locations. A vertical magnitude of the respective audio signal is enhanced by determining a log vertical component of the respective frequency-dependent audio gain that is equal to a product of a first enhancement factor and a difference between the respective frequency-dependent audio gain at the desired one of the plurality of perceived source locations and the lateral magnitude of respective audio signal. The output signals are time delayed according to an interaural time and delivered to left and right ears of a listener. | 08-08-2013 |
20130208895 | AUDIO SURROUND PROCESSING SYSTEM - An audio surround processing system receives an audio source signal having at least two audio channels and generates a number of additional surround sound signals in which an amount of artificially generated ambient energy is controlled in real-time at least in part by an estimate of ambient energy that is contained in the audio source signal. The system may divide the audio source signal into two sets of components; a first set of components and a second set of components. The first set of components may be in a range of frequency that is less than a range of frequency of the second set of components. An ambience estimate control coefficient may be generated using the transformed first set of components. An overall gain may be determined using the ambience estimate control coefficient. The overall gain may be used in generation of the additional surround sound signals. | 08-15-2013 |
20130208896 | DEVICE AND METHOD FOR DIRECTION DEPENDENT SPATIAL NOISE REDUCTION - A device and a method reduce direction dependent spatial noise. The device includes a plurality of microphones for measuring an acoustic input signal from an acoustic source. The plurality of microphones form at least one monaural pair and at least one binaural pair. Directional signal processing circuitry is provided for obtaining, from the input signal, at least one monaural directional signal and at least one binaural directional signal. A target signal level estimator estimates a target signal level by combining at least one of the monaural directional signals and at least one of the binaural directional signals, which at least one monaural directional signal and at least one binaural directional signal mutually have a maximum response in a direction of the acoustic source. A noise signal level estimator estimates a noise signal level by combining at least one of the monaural directional signals and at least one of the binaural directional signals, which at least one monaural directional signal and at least one binaural directional signal mutually have a minimum sensitivity in the direction of the acoustic source. | 08-15-2013 |
20130208897 | SKELETAL MODELING FOR WORLD SPACE OBJECT SOUNDS - A method for providing three-dimensional audio includes determining a world space object position and a world space ear position of a human subject based on a modeled virtual skeleton. The method further includes providing three-dimensional audio output to the human subject via an acoustic transducer array including one or more acoustic transducers. The three-dimensional audio output is configured such that sounds appear to originate from the object. | 08-15-2013 |
20130208898 | THREE-DIMENSIONAL AUDIO SWEET SPOT FEEDBACK - A method for providing three-dimensional audio is provided. The method includes receiving a depth map imaging a scene from a depth camera and recognizing a human subject present in the scene. The human subject is modeled with a virtual skeleton comprising a plurality of joints defined with a three-dimensional position. A world space ear position of the human subject is determined based on the virtual skeleton. Furthermore, a target world space ear position of the human subject is determined. The target world space ear position is the world space position where a desired audio effect can be produced via an acoustic transducer array. The method further includes outputting a notification representing a spatial relationship between the world space ear position and the target world space ear position. | 08-15-2013 |
20130208899 | SKELETAL MODELING FOR POSITIONING VIRTUAL OBJECT SOUNDS - Providing three-dimensional audio includes determining a world space ear position of a human subject based on a modeled virtual skeleton. A world space sound source position is determined such that a spatial relationship between the world space sound source position and the world space ear position models a spatial relationship between a virtual space sound source position of a virtual space sound source and a virtual space listening position. Three-dimensional audio is output to the human subject via an acoustic transducer array including one or more acoustic transducers. The three-dimensional audio output is configured such that at the world space ear position a sound provided by a particular virtual space sound source appears to originate from a corresponding world space sound source position | 08-15-2013 |
20130208900 | DEPTH CAMERA WITH INTEGRATED THREE-DIMENSIONAL AUDIO - A three-dimensional audio system includes a depth camera and one or more acoustic transducers in the same housing. Further, the same housing also houses logic for determining a world space ear position of a human subject observed by the depth camera. The logic also determines one or more audio-output transformations based on the world space ear position. The one or more audio-output transformations are configured to produce a three-dimensional audio output configured to provide a desired audio effect at the world space ear position. | 08-15-2013 |
20130216045 | MENU NAVIGATION METHOD FOR USER OF AUDIO HEADPHONES - A method of operating an audio system having first and second sources includes outputting a first audio signal from the first source on first and second speakers. In response to a listener input, the first audio signal and a second audio signal from the second source are output simultaneously on the first and second speakers. The first signal is output from each of the first and second speakers such that the first signal is perceived by a listener to originate from a first direction toward the listener. The second signal is output from each of the first and second speakers such that the second signal is perceived by the listener to originate from a second direction toward the listener. The second direction is offset at least ninety degrees from the first direction. | 08-22-2013 |
20130223631 | Engaging Terminal Devices - A method including producing a first audio output from a first device; and producing an electromagnetic field from a coil of the first device. The electromagnetic field includes information for at least partially producing a second audio output from a second device. The information is configured to provide a relationship between the first and second audio outputs such that when the first audio output is a first acoustic sound, for the first acoustic sound to be configured to acoustically couple with second acoustic sound from the second device which based upon the second audio output, or when the first audio output is not acoustic sound, for the first audio output to be output from the first device for a headset of at least one first user. | 08-29-2013 |
20130223632 | DATA TRANSMITTING APPARATUS, DATA RECEIVING APPARATUS, DATA TRANSCEIVING SYSTEM, DATA TRANSMITTING METHOD, AND DATA RECEIVING METHOD - A data transmitting apparatus is disclosed. The data transmitting apparatus includes a block generator which generates an Extended Display Identification Data (EDID) block regarding multi-channel audio data; and a transmitter which transmits the EDID block to a data receiving apparatus, wherein the EDID block includes at least one of a first sub block representing 3D audio characteristics of the multi-channel audio data, a second sub block representing 3D speaker placement information of the multi-channel audio data, and a third sub block representing multi-stream audio characteristics of the multi-channel audio data. | 08-29-2013 |
20130230174 | ELECTRONIC-ACOUSTIC DEVICE FEATURING A PLURALITY OF INPUT SIGNALS BEING APPLIED IN VARIOUS COMBINATIONS TO A LOUDSPEAKER ARRAY - According to one embodiment of the present invention, an electronic-acoustic device which is responsive to at least one input signal comprises: a spatial orientation sensor for detecting the vertical direction; a sound channel distributor/director for providing a plurality of output signals, and which is jointly responsive to such at least one input signal and to the spatial orientation sensor; a multi-channel amplifier which is responsive to a the plurality of output signals of the sound channel distributor/director; and a loudspeaker array which is responsive to the multi-channel amplifier for producing different sets of output sounds in the various spatial orientations of the device. | 09-05-2013 |
20130230175 | SYSTEM FOR OPTIMIZING THE PERCEIVED SOUND QUALITY IN VIRTUAL SOUND ZONES - The invention discloses a system applied to optimize the perceived sound quality in virtual sound zones. The system includes a method to establish a threshold of acceptability for an interfering audio programme on a target audio programme. The method includes physical parameters like target programme and interferer programme which combined with the scenarios: information gathering, entertainment and reading and/or working, constitutes modes of operations that may be processed and controlled by a system controller. | 09-05-2013 |
20130243199 | Controlling and grouping in a multi-zone media system - Techniques for grouping or pairing individual audio products with network capability (players) to stimulate a multi-channel listening environment are disclosed. In instead of grouping selected players to play back an audio item, a user is allowed to activate one of the players to process the data of the audio item, essentially separating the data into individual streams, each of the streams representing a single-sound track and being played back in one of the players, thus creating a multi-channel listening environment with the selected players. | 09-19-2013 |
20130243200 | Parametric Binaural Headphone Rendering - A sound enhancement system (SES) that can enhance reproduction of sound emitted by headphones and other sound systems. The SES improves sound reproduction by simulating a desired sound system without including unwanted artifacts typically associated with simulations of sound systems. The SES facilitates such improvements by transforming sound system outputs through a set of one or more sum and cross filters, where such filters have been derived from a database of known direct and indirect head-related transfer functions (HRTFs). | 09-19-2013 |
20130243201 | EFFICIENT CONTROL OF SOUND FIELD ROTATION IN BINAURAL SPATIAL SOUND - A sound reproduction method and apparatus for determining the desired orientation of the listener's head in a sound field. The method includes the steps of receiving input signals representative of output signals from a plurality of microphones positioned at a location to sample a sound field at points representing possible locations of a listener's left and right ears if said listener was positioned in said sound field at said location, and processing the input signals to generate a composite signal that simulates a rotation of the sound field about the listener's head. | 09-19-2013 |
20130243202 | SYSTEM AND METHOD FOR INFORMATION HANDLING SYSTEM WIRELESS AUDIO DRIVEN ANTENNA - Audio information coexists with best efforts data on a wireless network, such as a wireless local area network, by defining a backoff dedicated to communicate of audio information and using undedicated resources to communicate best efforts data. The backoff has a periodic interval that corresponds to the sample rate of the audio information so that a set of audio frame slots communicated at the start of a backoff interval has a length of time to complete communication. The set of audio frame slots has, for instance, an audio frame slot for each audio endpoint interfaced with the network. Periodic backoffs ensures synchronized audio playback by dedicating an antenna to communication of audio frames at the sample rate of the audio information, while supporting best efforts network communication when audio information is not being communicated. | 09-19-2013 |
20130243203 | DEVICE AND A METHOD FOR DETERMINING A COMPONENT SIGNAL WITH HIGH ACCURACY - A device for determining a component signal for a WFS system includes a provider for providing WFS parameters, a WFS parameter interpolator, and an audio signal processor. The provider provides WFS parameters for a component signal while using a source position and while using the loudspeaker position at a parameter sampling frequency smaller than the audio sampling frequency. The WFS parameter interpolator interpolates the WFS parameters so as to produce interpolated WFS parameters which are present at a parameter interpolation frequency that is higher than the parameter sampling frequency, the interpolated WFS parameters having interpolated fractions which have a higher level of accuracy than is specified by the audio sampling frequency. The audio signal processor is configured to apply the interpolated fractional values to the audio signal such that the component signal is obtained in a state of having been processed at the higher level of accuracy. | 09-19-2013 |
20130251155 | DATA SEARCHING USING SPATIAL AUDITORY CUES - Spatial auditory cues are produced while a user searches a database for stored information. The spatial auditory cues assist the user in quickly locating stored information by producing sounds that are perceived at specific physical locations in space around the user as the search proceeds. Each location may be associated with different information. Thus, using the techniques disclosed herein, a user can more easily recall stored information by remembering the locations of sound produced by particular spatial auditory cues. The spatial auditory cues may be used in conjunction with a visual search interface. A method of producing auditory cues includes receiving a search action at a user interface included in a device, translating the search action into a spatial auditory cue corresponding to a specific location within a space, and rendering the spatial auditory cue as an audio output signal. | 09-26-2013 |
20130251156 | AUDIO SIGNAL PROCESSING DEVICE - A postprocessor mixes audio signals for an LSch and an RSch indicating virtual surround sounds generated by a virtual surround processing unit with audio signals of an Rch, an Lch, and a Cch, performs a high-pass filter process, and then outputs the processed audio signals as audio signals for an Rsp and an Lsp which are main speakers. Further, the postprocessor performs phase inversion on the audio signals for the LSch and the RSch indicating the virtual surround sounds generated by the virtual surround processing unit, mixes the processed audio signals with audio signals of the Rch, the Lch, the Cch, and an LFEch, performs a low-pass filter process on the mixed signals, and then outputs the processed audio signals as audio signals for an SW which is a subwoofer. Thus, in a sound field realized by a virtual surround system, an influence of the sounds emitted from the subwoofer on localization of sounds of channels of virtual speakers is reduced. | 09-26-2013 |
20130251157 | SYSTEM FOR REPRODUCING AN AUDIO SIGNAL - A system for reproducing an audio signal may start a selection mode to retrieve the audio signal based on a first user input, and reproduce, in the selection mode, a first audio signal and a second audio signal. The system may filter the first audio signal and the second audio signal in the selection mode so that the first audio signal at a first location and the second audio signal at a second location are separated acoustically in a virtual acoustic space by the filtering. In the selection mode, in order to select the first audio signal the first location in the virtual acoustic space may be positioned acoustically closer to a listening position of a user than the second location of the second audio signal. The selection mode may end, if a time out of a time counter is detected. | 09-26-2013 |
20130259238 | SYSTEMS, METHODS, APPARATUS, AND COMPUTER-READABLE MEDIA FOR GESTURAL MANIPULATION OF A SOUND FIELD - Gesture-responsive modification of a generated sound field is described. | 10-03-2013 |
20130272527 | AUDIO SYSTEM AND METHOD OF OPERATION THEREFOR - An audio system comprises a receiver ( | 10-17-2013 |
20130279701 | AUTOMATIC ANNOUNCER VOICE ATTENUATION IN A PRESENTATION OF A BROADCAST EVENT - A method of automatic announcer voice removal from a televised sporting event. A sound processing circuit divides an audio input signal of a televised sporting event into multiple audio segments. The audio input signal includes crowd noise and announcer commentary. If an audio segment does not exceed a pre-defined amplitude threshold, a voice removal utility adds the audio segment to a recent crowd noise library and stores the segment in an output buffer. If the amplitude of a segment exceeds the threshold, the utility adds the segment to a recent announcer voice library. The sound processing circuit generates an attenuated version of the segment and blends the attenuated version with one or more mixed segments from the recent crowd noise library. The voice removal utility stores the attenuated and blended segment in the output buffer and outputs one or more audio segments from the buffer in a chronological order. | 10-24-2013 |
20130294605 | SOUND IMAGE LOCALIZATION APPARATUS - The present disclosure relates to a sound image localization apparatus and a sound image localization method using head related transfer function (HRTF), and to a virtual surround system. | 11-07-2013 |
20130301835 | DETERMINING THE INTER-CHANNEL TIME DIFFERENCE OF A MULTI-CHANNEL AUDIO SIGNAL - There is provided a method and device for determining an inter-channel time difference of a multi-channel audio signal having at least two channels. A determination is made, at a number of consecutive time instances, of inter-channel correlation based on a cross-correlation function involving at least two different channels of the multi-channel audio signal. Each value of the inter-channel correlation is associated with a corresponding value of the inter-channel time difference. An adaptive inter-channel correlation threshold is adaptively determined based on adaptive smoothing of the inter-channel correlation in time. A current value of the inter-channel correlation is then evaluated in relation to the adaptive inter-channel correlation threshold to determine whether the corresponding current value of the inter-channel time difference is relevant. Based on the result of this evaluation, an updated value of the inter-channel time difference is determined. | 11-14-2013 |
20130315398 | Audio Device and Audio Signal Inputting and Outputting Method thereof - A multiplexer is utilized by the audio device for inputting audio-in signals and outputting audio-out signals at a same connector and for providing an ignorable delay for avoiding spikes introduced at the beginning of generating audio-out signals. | 11-28-2013 |
20130315399 | MULTI-DIMENSIONAL AUDIO TRANSFORMATIONS AND CROSSFADING - A system for generating mixed audio output using a multi-dimensional audio map includes a computer processor and a multi-dimensional crossfader configured to implement a method. A first audio file is read. A multi-dimensional audio map includes a plurality of audio attribute layers, each including a first dimension representing an audio attribute value for a location defined by at least two other dimensions within a multi-dimensional space. A path is determined to transition between two points in the multi-dimensional audio map. A transition is performed between the two points in the multi-dimensional audio map by selecting corresponding values from each of the plurality of audio attribute layers between the two points. A mixed output is generated by applying the corresponding values from each of the plurality of audio attribute layers between the two points to a portion of the first audio file. | 11-28-2013 |
20130315400 | MULTI-DIMENSIONAL AUDIO TRANSFORMATIONS AND CROSSFADING - A method for creating a multi-dimensional audio map is provided. The method includes assigning a first audio attribute to a multi-dimensional space comprising at least three dimensions. The method also includes creating, by a computer processor responsive to user input, a first audio attribute layer within the multi-dimensional space, including a first dimension representing an audio attribute value of the first audio attribute for a location defined by at least two other dimensions. A method for generating a mixed output using the multi-dimensional audio map is also provided. | 11-28-2013 |
20130315401 | APPARATUS AND METHOD FOR REMOVING NOISE - A method of removing noise from a two-channel signal includes receiving channel signals constituting the two-channel signal; obtaining a noise signal for each channel by removing a target signal from each channel signal by subtracting another channel signal multiplied by a weighted value from each channel signal; estimating a power spectral density (PSD) of diffuse noise from each channel signal; obtaining a target signal including an interference signal for each channel by removing the diffuse noise from each channel signal using the estimated PSD of the diffuse noise; obtaining the interference signal for each channel by removing the diffuse noise from the noise signal for each channel using the estimated PSD of the diffuse noise; and removing the interference signal from the target signal including the interference signal for each channel. | 11-28-2013 |
20130322634 | CONTEXT-AWARE VOICE GUIDANCE - A context-aware voice guidance method is provided that interacts with other voice services of a user device. The voice guidance does not provide audible guidance while the user is making a verbal request to any of the voice-activated services. Instead, the voice guidance transcribes its output on the screen while the verbal requests from the user are received. In some embodiments, the voice guidance only provides a short warning sound to get the user's attention while the user is speaking on a phone call or another voice-activated service is providing audible response to the user's inquires. The voice guidance in some embodiments distinguishes between music that can be ducked and spoken words, for example from an audiobook, that the user wants to pause instead of being skipped. The voice guidance ducks music but pauses spoken words of an audio book in order to provide voice guidance to the user. | 12-05-2013 |
20130322635 | Method and device for controlling speaker array sound field based on quadratic residue sequence combinations - The present invention discloses a method and device for controlling speaker array sound field based on a quadratic residue sequence combination. The method comprises steps of: (1) fragmenting a designated quadratic residue sequence in terms of the number of array elements, to generate a plurality of quadratic residue subsequences; (2) designing an optimal array phase delay vector utilizing these subsequences; (3) controlling transmission signals of multi-element channels according to the optimal phase delay vector to adjust phase delay; (4) sending the multi-channel signals subjected to adjustment to a multi-channel power amplifier, to drive the speaker array to generate uniform sound field. The device comprises a sound source, an optimal phase delay estimator, an optimal phase delay controller, a multi-channel power amplifier and a speaker array. The invention can expand the coverage range of sound field radiated from an array and improve uniformity of the sound field. Furthermore, according to the invention, the hardware implementation of the control method of sound field is simple, and the spatial distribution characteristics of sound field meet the requirements of array sound reinforcement system. | 12-05-2013 |
20130322636 | Diffusing Acoustical Crosstalk - When two loudspeakers play the same signal, a “phantom center” image is produced between the speakers. However, this image differs from one produced by a real center speaker. In particular, acoustical crosstalk produces a comb-filtering effect, with cancellations that may be in the frequency range needed for the intelligibility of speech. Methods for using phase decorrelation to fill in these gaps and produce a flatter magnitude response are described, reducing coloration and potentially enhancing dialogue clarity. These methods also improve headphone compatibility and reduce the tendency of the phantom image to move toward the nearest speaker. | 12-05-2013 |
20130329891 | SOUND OUTPUT APPARATUS, AUDIO PROCESSING APPARATUS, SOUND OUTPUT METHOD, AND AUDIO PROCESSING METHOD - A sound output apparatus configured to connect to an audio processing apparatus may include a communication interface which receives an audio signal from the audio processing apparatus through a wireless communication; a speaker which outputs the received audio signal; an input unit which receives a user control command; and a controller which controls the communication interface so that the received control command is transmitted to the audio processing apparatus through the communication interface. | 12-12-2013 |
20130336490 | APPARATUS AND METHOD FOR LOCALIZING A SOUND IMAGE, AND A NON-TRANSITORY COMPUTER READABLE MEDIUM - According to one embodiment, a sound localization apparatus includes a storage unit, a selection unit, and a first operation unit. The storage unit stores a plurality of acoustic transfer characteristics each corresponding to a sound image direction and an emphasis degree of feeling of localization. The selection unit is configured to select a suitable acoustic transfer characteristic from the plurality of acoustic transfer characteristics. The suitable acoustic transfer characteristic is most suitable for the sound image direction indicated by a direction indication information and the emphasis degree indicated by an emphasis degree indication information. The first operation unit is configured to convolute the suitable acoustic transfer characteristic with a first audio signal to obtain a second audio signal. | 12-19-2013 |
20130343549 | MICROPHONE ARRAYS FOR GENERATING STEREO AND SURROUND CHANNELS, METHOD OF OPERATION THEREOF AND MODULE INCORPORATING THE SAME - A system and method for generating multiple audio channels. In one embodiment, the system includes: (1) an array of omnidirectional microphones and (2) a beamformer coupled to the array and operable to transform signals produced by the array into multiple directional audio channels. | 12-26-2013 |
20130343550 | AUDIO SIGNAL REPRODUCTION DEVICE AND AUDIO SIGNAL REPRODUCTION METHOD - An audio signal reproduction device generates, from an obtained audio signal, first reproduction signals for the first speaker group, sounds from which are localized at first virtual sound positions, and second reproduction signals for the second speaker group, sounds from which are localized at second virtual sound positions substantially the same as the first virtual sound positions. The audio signal reproduction device generates the first reproduction signals and the second reproduction signals so that at least phases or sound pressure values of a first sound and a second sound are different at a listening position, the first sound being indicated by the first reproduction signals, and localized at a first position among the first virtual sound positions, the second sound being indicated by the second reproduction signals, localized at a substantially same position as the first position, and substantially the same as the first sound. | 12-26-2013 |
20140016784 | SYSTEMS, METHODS, APPARATUS, AND COMPUTER-READABLE MEDIA FOR BACKWARD-COMPATIBLE AUDIO CODING - Systems, methods, and apparatus for backward-compatible coding of a set of basis function coefficients that describe a sound field are presented. | 01-16-2014 |
20140023196 | SCALABLE DOWNMIX DESIGN WITH FEEDBACK FOR OBJECT-BASED SURROUND CODEC - In general, techniques are described for grouping audio objects into clusters. In some examples, a device for audio signal processing comprises a cluster analysis module configured to group, based on spatial information for each of N audio objects, a plurality of audio objects that includes the N audio objects into L clusters, where L is less than N, wherein the cluster analysis module is configured to receive information from at least one of a transmission channel, a decoder, and a renderer, and wherein a maximum value for L is based on the information received. The device also comprises a downmix module configured to mix the plurality of audio objects into L audio streams, and a metadata downmix module configured to produce, based on the spatial information and the grouping, metadata that indicates spatial information for each of the L audio streams. | 01-23-2014 |
20140023197 | SCALABLE DOWNMIX DESIGN FOR OBJECT-BASED SURROUND CODEC WITH CLUSTER ANALYSIS BY SYNTHESIS - In general, techniques are described for grouping audio objects into clusters. In some examples, a device for audio signal processing comprises a cluster analysis module configured to, based on a plurality of audio objects, produce a first grouping of the plurality of audio objects into L clusters, wherein the first grouping is based on spatial information from at least N among the plurality of audio objects and L is less than N. The device also includes an error calculator configured to calculate an error of the first grouping relative to the plurality of audio objects, wherein the error calculator is further configured to, based on the calculated error, produce a plurality L of audio streams according to a second grouping of the plurality of audio objects into L clusters that is different from the first grouping. | 01-23-2014 |
20140056429 | SPATIALIZATION USING STEREO DECORRELATION - A method for spatialization using stereo decorrelation. The method generates decorrelated left and right signals by filtering the left input channel using an all-pass filter with a first group delay and filtering the right input channel using an all-pass filter with a second group delay; the second group delay being different than that of the first group delay. The decorrelated left signal is subtracted from the decorrelated right signal to create a second left signal and the decorrelated right signal is subtracted from the decorrelated left signal to create a second right signal. The method generates a side signal by adding the filtered left input channel signal and the filtered right input channel signal. The side signal is added to the second left signal to generate a left output signal the side signal is added to the second right signal to generate a right output signal. | 02-27-2014 |
20140056430 | SYSTEM AND METHOD FOR REPRODUCING WAVE FIELD USING SOUND BAR - Disclosed is a system and method for reproducing a wave field that reproduces a wave field using a sound bar, the system including an input signal analyzer to divide an input signal into an audio signal for a plurality of channels, and identify a position of a loud speaker corresponding to the plurality of channels, a rendering unit to process the audio signal for the plurality of channels, using a rendering algorithm based on the position, and generate an output signal, and a loud speaker array to output the output signal using loud speakers corresponding to the plurality of channels, and reproduce a wave field. | 02-27-2014 |
20140056431 | SOUND FIELD CONTROL APPARATUS AND SOUND FIELD CONTROL METHOD - A sound field control apparatus appropriately presenting desired sound in a listening area and sufficiently reducing the sound in a nearby area without constraint on configuration arrangement includes: a listening compensation filter processing a signal from a sound source using a control characteristic and outputting the signal to a second speaker; and a control filter processing the signal from the listening compensation filter using a control characteristic and outputting the signal to a first speaker. The characteristic of the control filter is a first previously-set characteristic whereby reproduced sound from the second speaker is reduced by reproduced sound from the first speaker at a first control position. The characteristic of the listening compensation filter is a second previously-set characteristic whereby sound having a predetermined target acoustic characteristic is presented by reproduced sounds from the first and second speakers at a second control position. | 02-27-2014 |
20140064492 | NOMADIC DEVICE FOR CONTROLLING ONE OR MORE PORTABLE SPEAKERS - An apparatus for receiving audio data from a nomadic device is provided. The apparatus comprises a first portable speaker for being operably coupled to the nomadic device. The nomadic device receives first information indicative of a first crossover frequency for the first portable speaker and determines the first crossover frequency based on the first information. The nomadic device transmits the audio data to the first portable speaker in accordance to the first crossover frequency. The first portable speaker is configured to playback the audio data at the first crossover frequency. | 03-06-2014 |
20140064493 | APPARATUS AND METHOD OF REPRODUCING VIRTUAL SOUND OF TWO CHANNELS BASED ON LISTENER'S POSITION - An apparatus and method of reproducing a virtual sound of two channels which adaptively reproduces a 2-channel stereo sound signal reproduced through a recording medium such as DVD, CD, or MP3 player etc., based on a listener's position. The method includes sensing a listener's position and recognizing distance and angle information about the listener's position, determining output gain values and delay values of two speakers based on the distance and angle information about the sensed listener's position and selecting localization filter coefficients in a predetermined table, and updating filter coefficients of a localization filter based on the selected localization filter coefficients and adjusting output levels and time delays of the two speakers from the determined gain values and delay values. | 03-06-2014 |
20140064494 | Audio Spatialization and Environment Simulation - Methods are disclosed for improving sound localization of the human ear. In some embodiments, the method may include creating virtual movement of a plurality of localized sources by applying a periodic function to one or more location parameters of a head related transfer function (HRTF). | 03-06-2014 |
20140064495 | SECURE SYSTEM AND METHOD FOR AUDIO PROCESSING - A method and system for playing movies with object-based sound complying with industry security standards using less processing power than the prior art, comprises an integrated media block in which, in non-real-time, encrypted audio files are decrypted. The object-based and channel-based audio data is then rendered to theater specific channels in non-real time. After the audio objects are rendered, the rendered audio is re-encrypted and stored for use at a later time. When the rendered movie is to be played in real time, the encrypted video and rendered encrypted audio files are streamed from the server, decrypted, forensically marked and played. Using the present invention, movies also can be downloaded and pre-processed while another movie is playing. | 03-06-2014 |
20140072123 | DIGITAL AUDIO PROCESSING SYSTEM AND METHOD - Systems and method for audio processing are disclosed. Left and right channels of an audio data stream are combined to derive sum and difference signals. A time domain to frequency domain converter is provided for converting the sum and difference signals to the frequency domain. a first processing unit is provided for deriving a frequency domain noise signal based at least partly on the frequency domain difference signal. A second processing unit is provided for processing the frequency domain sum signal using the noise signal thereby to reduce noise artifacts in the sum signal. A frequency domain to time domain converter is provided for converting at least the processed frequency domain sum signal to the time domain. | 03-13-2014 |
20140079222 | RESTORATION OF HIGH FREQUENCIES BY FREQUENCY TRANSLATION - A method, circuit and article of manufacture for restoring high-frequency content in a first signal includes down-sampling the first signal by a factor to give a second signal; up-sampling the second signal by the same factor to give a third signal; low-pass filtering the third signal to give a fourth signal; high-pass filtering the fourth signal to give a fifth signal; and, adding the fifth signal to the first signal. | 03-20-2014 |
20140086414 | EFFICIENT AUDIO CODING HAVING REDUCED BIT RATE FOR AMBIENT SIGNALS AND DECODING USING SAME - An apparatus creates first data stream(s) by processing first audio signal(s) and creates second data stream(s) by processing second audio signal(s). The processing includes detecting phase information from at least one of the second audio signal(s) so as to eliminate the phase information. The second data stream(s) are created without the phase information from the at least one second audio signal. The first and second data streams are output. Another apparatus receives first data stream(s) including first audio signal(s) and receives second data stream(s) including second audio signal(s). The second audio signal(s) include at least one second audio signal where phase information has been eliminated. Phase information is detected from one of a selected first audio signal or a selected second audio signal and is added into the at least one second audio signal. Output audio is rendered using the first and second audio signal(s). | 03-27-2014 |
20140086415 | ELECTRONIC DEVICE - An electronic device is provided. The electronic device can include a processing portion and one or more audio output portions. Based on any of, or any combination of, the image signals, optical signals, voice input signals, movement of the electronic device and change in orientation of the electronic device, the processing portion can be configured to do one or both of varying/controlling at least a portion of the audio characteristics of the audio input signals and varying/controlling output of audio output signals. | 03-27-2014 |
20140093085 | PROVIDING A MULTI-CHANNEL AND A MULTI-ZONE AUDIO ENVIRONMENT - A multi-channel and multi-zone audio environment is provided. Various inventions are disclosed that allow playback devices on one or more networks to provide an effective multi-channel and a multi-zone audio environment using timing information. According to one example, timing information is used to coordinate playback devices connected over a low-latency network to provide audio along with a video display. In another example, timing information is used to coordinate playback devices connected over a mesh network to provide audio in one or more zones or zone groups. | 04-03-2014 |
20140098961 | RECORDING APPARATUS WITH MASTERING FUNCTION - There is provided a recording apparatus which can effectively execute compression processing regardless of the mixdown level, and which can thereby carry out the mastering process easily. A DSP mixes down audio signals assigned to a plurality of tracks into a stereo audio signal. When performing the mastering process, the DSP normalizes the stereo audio signal before performing the compression processing, subsequently carries out the compression processing, then performs normalization again so as to produce master data, and records the master data in a recorder. | 04-10-2014 |
20140098962 | Angle-dependent operating device or method for generating a pseudo-stereophonic audio signal - An apparatus for stereophonizing a mono signal, comprising a convener for converting the mono signal into a principal signal and a side signal by delaying and amplifying the mono signal on the basis of an angle φ between sound source and microphone principal axis. | 04-10-2014 |
20140105404 | METHOD, MEDIUM, AND SYSTEM SYNTHESIZING A STEREO SIGNAL - A method, medium, and system generating a 3-dimensional (3D) stereo signal in a decoder by using a surround data stream. According to such a method, medium, and system, a head related transfer function (HRTF) is applied in a quadrature mirror filter (QMF) domain, thereby generating a 3D stereo signal by using a surround data stream. | 04-17-2014 |
20140105405 | Method and Apparatus for Creating Spatialized Sound - A method and apparatus for creating spatialized sound, including the operations of determining a spatial point in a spherical coordinate system, and applying an impulse response filter corresponding to the spatial point to a first segment of the audio waveform to yield a spatialized waveform. The spatialized waveform emulates the audio characteristics of a non-spatialized waveform emanating from the chosen spatial point. That is, when the spatialized waveform is played from a pair of speakers, the played sound apparently emanates from the chosen spatial point instead of the speakers. A finite impulse response filter may be employed to spatialize the audio waveform. The finite impulse response filter may be derived from a head-related transfer function modeled in spherical coordinates, rather than a typical Cartesian coordinate system. The spatialized audio waveform ignores speaker cross-talk effects, and requires no specialized decoders, processors, or software logic to recreate the spatialized sound. | 04-17-2014 |
20140112479 | PROCESSING METHOD AND PROCESSING APPARATUS FOR STEREO AUDIO OUTPUT ENHANCEMENT - A processing method and processing apparatus suitable for stereo audio output enhancement. The processing apparatus can include an input portion configurable to receive a set of input signals, an intermediate portion coupled to the input portion and an output portion coupled to the intermediate portion. The input portion can be configured to produce processed input signals based on the set of input signals. The intermediate portion can be configured to produce a compensated signal based on the processed input signals. The intermediate portion can also be configured to produce a first mixed signal and a second mixed signal based on the set of input signals and at least a portion of the compensated signal. The output portion can be configured to produce a set of output signals based on the first and second mixed signals. | 04-24-2014 |
20140112480 | METHOD FOR CAPTURING AND PLAYBACK OF SOUND ORIGINATING FROM A PLURALITY OF SOUND SOURCES - The invention discloses a method for capturing and for play-back of sound originating from a plurality of sources. It also includes a computer program product having an audio file adapted to receive and play back such sound. Basically, sound originating from each sound source is recorded on individual tracks. To preserve the spatial distribution and the movement of the sound sources, the current positions of the sound sources are also recorded relative to at least one listening position. Furthermore, movements of one or more listeners during playback can be tracked and used for rendering the spatial acoustic field during playback tailored to the current position of the listener(s). | 04-24-2014 |
20140119545 | METHOD AND APPARATUS FOR DECOMPOSING A STEREO RECORDING USING FREQUENCY-DOMAIN PROCESSING EMPLOYING A SPECTRAL WEIGHTS GENERATOR - An apparatus for generating a stereo side signal having a first side channel and a second side channel from a stereo input signal having a first input channel and a second input channel is provided. The apparatus has a modification information generator for generating modification information based on mid-side information. Furthermore, the apparatus has a signal manipulator being adapted to manipulate the first input channel based on the modification information to obtain the first side channel and being adapted to manipulate the second input channel based on the modification information to obtain the second side channel. The modification information generator has a spectral weights generator for generating the modification information by generating a first spectral weighting factor based on a mono mid signal and on a mono side signal of the stereo input signal. | 05-01-2014 |
20140126724 | AUGMENTED REALITY SYSTEM - Technologies are generally described for a system for processing an augmented reality image. In some examples, an augmented reality system may include an augmented reality engine configured to provide an augmented reality image by integrating a real-world image and a virtual object, and a message processing unit configured to receive a message related to the virtual object and to translate spatial attributes of the virtual object into audio attributes of a sound file. | 05-08-2014 |
20140133660 | METHOD AND APPARATUS FOR CHANGING THE RELATIVE POSITIONS OF SOUND OBJECTS CONTAINED WITHIN A HIGHER-ORDER AMBISONICS REPRESENTATION - Higher-order Ambisonics HOA is a representation of spatial sound fields that facilitates capturing, manipulating, recording, transmission and playback of complex audio scenes with superior spatial resolution, both in 2D and 3D. The sound field is approximated at and around a reference point in space by a Fourier-Bessel series. The invention uses space warping for modifying the spatial content and/or the reproduction of sound-field information that has been captured or produced as a higher-order Ambisonics representation. Different warping characteristics are feasible for 2D and 3D sound fields. The warping is performed in space domain without performing scene analysis or decomposition. Input HOA coefficients with a given order are decoded to the weights or input signals of regularly positioned (virtual) loudspeakers. | 05-15-2014 |
20140140515 | APPARATUS AND METHOD FOR GENERATING MULTIMEDIA DATA, AND APPARATUS AND METHOD FOR PLAYING MULTIMEDIA DATA - An apparatus and method for generating multimedia data and an apparatus and method for playing multimedia data are disclosed. The apparatus for generating the multimedia data may include a spatial information identification unit to identify spatial information for a plurality of channels of a multi-channel audio signal, and a multimedia data generation unit to generate multimedia data including the spatial information, and the apparatus for playing the multimedia data may include a spatial information analysis unit to analyze spatial information for a plurality of channels of a multi-channel audio signal included in multimedia data, and a multimedia data playback unit to play multimedia data, based on the spatial information. | 05-22-2014 |
20140146970 | COLLABORATIVE SOUND SYSTEM - In general, techniques are described for forming a collaborative sound system. A headend device comprising one or more processors may perform the techniques. The processors may be configured to identify mobile devices that each includes a speaker and that are available to participate in a collaborative surround sound system. The processors may configure the collaborative surround sound system to utilize the speaker of each of the mobile devices as one or more virtual speakers of this system and then render audio signals from an audio source such that when the audio signals are played by the speakers of the mobile devices the audio playback of the audio signals appears to originate from the one or more virtual speakers of the collaborative surround sound system. The processors may then transmit the processed audio signals rendered to the mobile device participating in the collaborative surround sound system. | 05-29-2014 |
20140169568 | CORRELATION BASED FILTER ADAPTATION - Example apparatus and methods concern performing stereo acoustic echo cancellation using a correlation based filter adaptation control approach and without using stereo de-correlation. An embodiment includes a stereo adaptive filter that produces an echo removed microphone signal from received audio signals. The embodiment includes a mono adaptive filter that produces an echo removed microphone signal from the received audio signals. A correlation detector determines a level of correlation between the received signals and provides a signal to an adaptive filter controller. The adaptive filter controller controls how the stereo adaptive filter and the mono adaptive filter adapt audio echo cancellation as a function of the correlation between the received signals. A signal selector may select for output the signal from either the stereo adaptive filter or the mono adaptive filter based, for example, on the power level of the signals. | 06-19-2014 |
20140169569 | Device Discovery And Constellation Selection - There is described discovery of a plurality of audio devices, and for the discovered audio devices are determined relative positions thereof and distances therebetween. The determined relative positions and distances are used to select a constellation of audio devices from the discovered plurality. This constellation is selected for playing or recording of a multi-channel audio file so as to present an audio effect such as a spatial audio effect. Channels for the multi-channel audio file are allocated to different audio devices of the selected constellation, which are controlled to synchronously play back or record their respectively allocated channel or channels of the multi-channel audio file. In a specific embodiment the determined distances are used to automatically select the constellation and include distance between each pair of audio devices of the plurality. Several embodiments are presented for determining the distances and relative positions. | 06-19-2014 |
20140177844 | METHOD FOR VISUALIZING THE DIRECTIONAL SOUND ACTIVITY OF A MULTICHANNEL AUDIO SIGNAL - The invention relates to a method for visualizing a directional sound activity of a multichannel audio signal, comprising:
| 06-26-2014 |
20140177845 | METHOD, APPARATUS, AND COMPUTER PROGRAM PRODUCT FOR CATEGORICAL SPATIAL ANALYSIS-SYNTHESIS ON SPECTRUM OF MULTICHANNEL AUDIO SIGNALS - A method, apparatus and computer program product are therefore provided according to an example embodiment of the present invention in order to perform categorical analysis and synthesis of a multichannel signal to synthesize binaural signals and extract, separate, and manipulate components within the audio scene of the multichannel signal that were captured through multichannel audio means. In the context of a method, a multichannel signal is received. The method may include computing the spectrum for the multichannel signal, determining tonality of bands within the spectrum, and generating a band structure for the spectrum. The method may also include performing spatial analysis of the bands, performing source filtering using the bands, performing synthesis on the filtered band components, and generating an output signal. A corresponding apparatus and a computer program product are also provided. | 06-26-2014 |
20140177846 | Systems, Methods, and Apparatus for Recording Three-Dimensional Audio and Associated Data - Embodiments of the disclosure can include systems, methods, and apparatus for recording three-dimensional audio and associated data. In one embodiment, an apparatus can include a base, a stick operable to move in either an X-axis direction or a Y-axis direction with respect to the base, a pedal operable to mount to a portion of the stick and receive a user input in either the X-axis direction or the Y-axis direction, and a sliding mechanism operable to facilitate sliding the pedal with respect to the base, wherein the pedal is further operable to receive another user input to correspond to a Z-axis direction. In certain embodiments, the apparatus can also include a locking mechanism operable to receive a user input to limit sliding the pedal with respect to the base. | 06-26-2014 |
20140185811 | SYSTEM AND METHOD FOR VARIABLE DECORRELATION OF AUDIO SIGNALS - Various embodiments relate to a system and method for decorrelating an audio signal with a hybrid filter. The hybrid filter is generated by first generating a decorrelation filter. A frequency-dependent warping is applied to the decorrelation filter. The warped decorrelation filter is then mixed with a carrier filter to generate the hybrid filter. The carrier filter may include filters for spatial processing of an audio signal, filters for upmixing an audio signal, and/or filters for downmixing an audio signal. | 07-03-2014 |
20140198917 | MENU NAVIGATION METHOD FOR USER OF AUDIO HEADPHONES - A method of operating an audio system having first and second sources includes outputting a first audio signal from the first source on first and second speakers. In response to a listener input, the first audio signal and a second audio signal from the second source are output simultaneously on the first and second speakers. The first signal is output from each of the first and second speakers such that the first signal is perceived by a listener to originate from a first direction toward the listener. The second signal is output from each of the first and second speakers such that the second signal is perceived by the listener to originate from a second direction toward the listener. The second direction is offset at least ninety degrees from the first direction. | 07-17-2014 |
20140205100 | METHOD AND AN APPARATUS FOR GENERATING AN ACOUSTIC SIGNAL WITH AN ENHANCED SPATIAL EFFECT - An apparatus and a method for generating an acoustic signal with an enhanced spatial effect, said apparatus comprising a signal filter bank adapted to filter a difference audio signal with a filter characteristic to limit a bandwidth of said difference audio signal, wherein said bandwidth limited difference audio signal is applied to at least one pair of loudspeakers for dipole sound emission. | 07-24-2014 |
20140211945 | AUDIO RENDERING DEVICE AND AUDIO RENDERING METHOD - An audio rendering device which uses multichannel speakers includes: a first delay computation unit which computes, based on rendering information about the multichannel speakers, a first delay corresponding to a primary wavefront which propagates in a predetermined traveling direction from a sound source that is each of speakers included in the multichannel speakers; a second delay computation unit which computes, based on the rendering information about the multichannel speakers, a second delay corresponding to a secondary wavefront which is generated by the primary wavefront and has a scattering wavefront; an addition unit which adds up the first delay and the second delay to compute a total delay; and a delay filter which applies the total delay to an input audio signal to generate a multichannel audio signal for use in rendering with the multichannel speakers, and outputs the multichannel audio signal to the multichannel speakers. | 07-31-2014 |
20140211946 | Loudness Modification of Multichannel Audio Signals - Scaling, by a desired amount s | 07-31-2014 |
20140219455 | MAPPING VIRTUAL SPEAKERS TO PHYSICAL SPEAKERS - In general, techniques are described for mapping virtual speakers to physical speakers, having first adjusted the position of one of the virtual speakers based on a relative position of the one of the virtual speakers to one of the physical speakers. A device comprising one or more processors may perform the techniques. The one or more processors may be configured to determine a difference in position between one of a plurality of physical speakers and one of a plurality of virtual speakers arranged in a geometry, and adjust a position of the one of the plurality of virtual speakers within the geometry based on the determined difference in position and prior to mapping the plurality of virtual speakers to the plurality of physical speakers. | 08-07-2014 |
20140219456 | DETERMINING RENDERERS FOR SPHERICAL HARMONIC COEFFICIENTS - In general, techniques are described for determining renderers used for rendering spherical harmonic coefficients to generate one or more loudspeaker signals. A device comprising one or more processors may perform the techniques. The one or more processors may be configured to determine a local speaker geometry of one or more speakers used for playback of spherical harmonic coefficients representative of a sound field, and configure the device to operate based on the local speaker geometry. | 08-07-2014 |
20140219457 | Method For Processing An Audio Signal, Audio Playback System, And Processing Unit For Processing Audio Signals - Method of processing an audio signal, audio reproduction system, and processing unit for conditioning audio signals. The audio signal includes at least first and second channels, the first channel being time-delayed by a predetermined delay factor, and a volume level of the first channel being attenuated by a predetermined attenuation factor. This attenuated and time-delayed first channel is added to the second channel to provide a second channel of the audio signal intended for reproduction. | 08-07-2014 |
20140219458 | AUDIO SIGNAL REPRODUCTION DEVICE AND AUDIO SIGNAL REPRODUCTION METHOD - An audio signal reproduction device includes: a signal obtainment unit which obtains channel signals including a channel signal representing a direct sound; a reflected sound signal generation unit which, when a first area includes a sound image of the direct sound and a second area is an area other than the first area, generate a reflected sound signal representing a reflected sound, the reflected sound being a sound which reaches the listener after the direct sound is reflected at a predetermined position in the second area; a signal generation unit which generates, from the reflected sound signal, a signal to be outputted to a corresponding channel so that the listener perceives that the reflected sound comes from the predetermined position, the at least one of the channels corresponding to the at least one of the speakers. | 08-07-2014 |
20140247945 | METHOD AND APPARATUS FOR COMMUNICATING WITH AUDIO SIGNALS HAVING CORRESPONDING SPATIAL CHARACTERISTICS - A method, apparatus computer program product are provided to facilitate the utilization of the spatial position of audio signals in order to improve voice quality. In the context of a method, a main mono signal is determined from one or more audio signals that were received. The method also includes determining one or more ambience signals from the one or more audio signals that were received, such as following removal of the main mono signal therefrom. The method also adjusts at least one of a virtual position of the main mono signal for provision to a recipient device or the one or more ambience signals for provision to the recipient device. | 09-04-2014 |
20140254801 | DOWN-MIXING COMPENSATION FOR AUDIO WATERMARKING - Example methods, apparatus, systems and articles of manufacture to implement down-mixing compensation for audio watermarking are disclosed. Example methods disclosed herein to compensate for audio channel down-mixing when embedding watermarks in a multichannel audio signal include obtaining a watermark to be embedded in respective ones of a plurality of audio channels of the multichannel audio signal. Such example methods also include embedding the watermark in a first one of the plurality of audio channels based on a compensation factor that is to reduce perceptibility of the watermark when the first one of the plurality of audio channels is down-mixed with a second one of the plurality of audio channels after the watermark has been applied to the first and second ones of the plurality of audio channels. | 09-11-2014 |
20140254802 | INFORMATION TERMINAL DEVICE, SOUND CONTROL METHOD AND PROGRAM - An information terminal device, a sound control method and a program, which enable a good stereo surround effect suitable for a screen display to be obtained even with a miniature speaker. A controller ( | 09-11-2014 |
20140270181 | DJ Stem Systems And Methods - Systems and methods selectively mix a first and second song together during a live performance. The first song has a plurality of first stems, each having stereo audio that combine to form the audio of the first song. The second song has a plurality of second stems, each having stereo audio that combine to form the audio of the second song. A computer, with memory and a processor, executes machine readable instructions of a multiple channel audio mixing application with stored within the memory. The multiple channel audio mixing application plays and mixes audio of at least one of the first stems with audio of at least one of the second stems. The multiple channel audio mixing application is controlled in real-time during the performance to select the at least one first stem and the at least one second stem for the mixing. | 09-18-2014 |
20140270182 | Sound For Map Display - A method including associating a sound with a first location in a virtual three dimensional (3D) map; and during navigation of a user from a second location to the first location with use of the virtual 3D map, playing the sound by an apparatus based, at least partially, upon information from the virtual 3D map. | 09-18-2014 |
20140270183 | MONO-SPATIAL AUDIO PROCESSING TO PROVIDE SPATIAL MESSAGING - Embodiments of the invention relate generally to electrical and electronic hardware, computer software, wired and wireless network communications, and wearable computing and audio devices for communication audio. More specifically, disclosed are an apparatus and a method for processing audio signals to include spatially modulated message audio signals as a portion of a monaural signal. In some embodiments, a method includes receiving a message for a loudspeaker. The method can determine whether an audio signal is in communication with the loudspeaker and a type of a message of the message. Message audio for the message can be spatially modulated as a function of the type of message. A mono-spatial audio signal can be formed based the audio signal and the spatially-modulated message. Thus, a monaural audio signal can be modulated to generate mono-spatial effects for presenting the messages. | 09-18-2014 |
20140270184 | AUDIO DEPTH DYNAMIC RANGE ENHANCEMENT - An audio depth dynamic range enhancement system and method for enhancing the dynamic range of depth in audio sound systems as perceived by a human listener. Embodiments of the system and method process an input audio signal by applying a gain function to at least one of a plurality of sub-signals of the audio signal having different values of a spatial depth parameter. The sub-signals are combined to produce a reconstructed audio signal carrying modified audio information. The reconstructed audio signal is output from the system and method for reproduction by the audio sound system. The gain function alters the gain of the at least one of the plurality of sub-signals such that the reconstructed audio signal, when reproduced by the audio sound system, results in modified depth dynamic range of the audio sound system with respect to the spatial depth parameter. | 09-18-2014 |
20140270185 | SYSTEM AND METHODS FOR PROCESSING STEREO AUDIO CONTENT - A system can include a hardware processor that can receive left and right audio signals and process the left and right audio signals to generate three or more processed audio signals. The three or more processed audio signals can include a left audio signal, a right audio signal, and a center audio signal. The processor can also filter each of the left and right audio signals with one or more first virtualization filters to produce filtered left and right signals. The processor can also filter a portion of the center audio signal with a second virtualization filter to produce a filtered center signal. Further, the processor can combine the filtered left signal, filtered right signal, and filtered center signal to produce left and right output signals and output the filtered left and right output signals. | 09-18-2014 |
20140270186 | Method And Apparatus For Using Spatial Audio Rendering For A Parallel Playback Of Call Audio And Multimedia Content - Dynamic audio rendering can be achieved by modifying the amplitude, phase, and frequency of audio signal components by varying degrees based on characteristics of the audio signal. A rendered audio signal can be produced by scaling the amplitude of an audio signal component by an amount that is dynamically selected according to the audio signal characteristics. A rendered audio signal can also be produced by adjusting/shifting a phase and/or frequency of an audio signal component by an amount that is dynamically selected according to the audio signal characteristics. The audio signal characteristics may correspond to any metric or quality associated with the audio signal, such as an energy ratio of the audio signal in the time domain, a bit-depth, or sampling rate. | 09-18-2014 |
20140270187 | FILTER SELECTION FOR DELIVERING SPATIAL AUDIO - Various embodiments relate generally to electrical and electronic hardware, computer software, wired and wireless network communications, and audio and speaker systems. More specifically, disclosed are an apparatus and a method for processing signals for optimizing audio, such as 3D audio, by adjusting the filtering for cross-talk cancellation based on listener position and/or orientation. In one embodiment, an apparatus is configured to include a plurality of transducers, a memory, and a processor configured to execute instructions to determine a physical characteristic of a listener relative to the origination of the multiple channels of audio, to cancel crosstalk in a spatial region coincident with the listener at a first location, to detect a change in the physical characteristic of the listener, and to adjust the cancellation of crosstalk responsive to detecting the change in the physical characteristic to establish another spatial region at a second location. | 09-18-2014 |
20140270188 | SPATIAL AUDIO AGGREGATION FOR MULTIPLE SOURCES OF SPATIAL AUDIO - Various embodiments relate generally to electrical and electronic hardware, computer software, wired and wireless network communications, and audio and speaker systems. More specifically, disclosed are an apparatus and a method for processing signals for optimizing audio, such as 3D audio, by adjusting the filtering for cross-talk cancellation based on listener position and/or orientation. In one embodiment, an apparatus is configured to include a plurality of transducers, a memory, and a processor configured to execute instructions to determine a physical characteristic of a listener relative to the origination of the multiple channels of audio, to cancel crosstalk in a spatial region coincident with the listener at a first location, to detect a change in the physical characteristic of the listener, and to adjust the cancellation of crosstalk responsive to detecting the change in the physical characteristic to establish another spatial region at a second location. | 09-18-2014 |
20140270189 | IMPULSE RESPONSE APPROXIMATION METHODS AND RELATED SYSTEMS - Systems and methods for achieving approximate convolution using partitioned truncated singular value decomposition filtering for each of monaural rendering and binaural rendering are disclosed herein. | 09-18-2014 |
20140307876 | Systems and Methods for Three-Dimensional Audio CAPTCHA - Systems and methods for generating and performing a three-dimensional audio CAPTCHA are provided. One exemplary system can include a decoy signal database storing a plurality of decoy signals. The system also can include a three-dimensional audio simulation engine for simulating the sounding of a target signal and at least one decoy signal in an acoustic environment and outputting a stereophonic audio signal based on the simulation. One exemplary method includes providing an audio prompt to a resource requesting entity. The audio prompt can have been generated based on a three-dimensional audio simulation of the sounding of a target signal containing an authentication key and at least one decoy signal in an acoustic environment. The method can include receiving a response to the audio prompt from the resource requesting entity and comparing the response to the authentication key. | 10-16-2014 |
20140307877 | INFORMATION PROCESSING APPARATUS AND SOUND PROCESSING METHOD - An information processing apparatus includes a forward deciding unit that makes a decision as to a user's forward according to the user's orientation information, a sound generating unit that creates sound data assigned to each of virtual sound sources placed in a plurality of directions preset in advance, a compressing unit that performs compression on the created sound data by the sound generating unit in different ways between the created sound data corresponding to the user's forward obtained by the forward deciding unit and the created sound data corresponding to a direction other than the user's forward, and a communication unit that transmits the compressed sound data by the compressing unit. | 10-16-2014 |
20140314238 | MULTIPLEXING AUDIO SYSTEM AND METHOD - A method and system for multiplexing audio signals into a single channel uses frequency division multiplexing. The frequency division multiplexing method herein is based on a frequency transform algorithm using FFT shifting that does not require a carrier signal for the modulation. In one embodiment, two input microphone audio signals are frequency shifted and the resulting single audio channel is directed over a standard input connection to a computing device, for instance, a smart phone using a wired TRRS connection. The TRRS analog input of the computing devices exhibits a high-pass characteristic, and the frequency shifting method enables the low frequency audio components of input audio signals to be received and processed by a software application on the smart phone. Other embodiments are disclosed. | 10-23-2014 |
20140321652 | PARAMETRIC STEREO UPMIX APPARATUS, A PARAMETRIC STEREO DECODER, A PARAMETRIC STEREO DOWNMIX APPARATUS, A PARAMETRIC STEREO ENCODER - A parametric stereo upmix method for generating a left signal and a right signal from a mono downmix signal based on spatial parameters includes predicting a difference signal comprising a difference between the left signal and the right signal based on the mono downmix signal scaled with a prediction coefficient. The prediction coefficient is derived from the spatial parameters. The method further includes deriving the left signal and the right signal based on a sum and a difference of the mono downmix signal and said difference signal. | 10-30-2014 |
20140328485 | SYSTEMS AND METHODS FOR STEREOISATION AND ENHANCEMENT OF LIVE EVENT AUDIO - Systems and methods to deliver live sound with enhanced quality conveyed by a mixing desk to a mobile computing device user contemporaneously with external live sounds. The mobile computing device is operable to receive enhanced audio signals produced by a remote audio signal processing device through a communication work. A memory resident application is configured to playback the enhanced audio signals in phase with the external sounds using an audio rendering device. An attendee at the live event can hear the sounds from the playback through an earphone coupled to the mobile computing device as well as from the ambient environment. | 11-06-2014 |
20140334626 | METHOD AND APPARATUS FOR LOCALIZING MULTICHANNEL SOUND SIGNAL - Provided are a method and apparatus for localizing a multichannel sound signal. The method includes: obtaining a multichannel sound signal to which sense of elevation is applied by applying a first filter to an input sound signal; determining at least one frequency range of a dynamic cue according to change of a head-related transfer function (HRTF) indicating information regarding paths from a spatial location of an actual speaker to ears of an audience; and applying a second filter to at least one sound signal, corresponding to the determined at least one frequency range, of at least one channel in the multichannel sound signal to change the at least one sound signal so as to remove or to reduce the dynamic cue when the multichannel sound signal is output. | 11-13-2014 |
20140348329 | SOUND SYSTEM FOR ESTABLISHING A SOUND ZONE - A system and method for acoustically reproducing k electrical audio signals (where k=2, 3, 4, . . . ) and establishing k sound zones are provided, in each of which one of k reception sound signals occurs that is an individual pattern of the reproduced and transmitted k electrical audio signals, comprising processing the k electrical audio signals to provide k processed electrical audio signals and converting the k processed electrical audio signals into corresponding k acoustic audio signals with k loudspeakers that are arranged at positions separate from each other and within or adjacent to the k sound zones. Each of the k acoustic audio signals is transferred according to a transfer matrix from each of the k loudspeakers to each of the k sound zones, where they contribute to the corresponding reception sound signals. Processing of the k electrical audio signals comprises inverse filtering according to three filter matrices, one of which is an i×i filter matrix, one is a j×j filter matrix and one is a k×k filter matrix, in which i, j11-27-2014 | |
20140348330 | MULTI LOBE STEREO LOUDSPEAKER IN ONE CABINET - A one-cabinet stereo loudspeaker, wherein at least first and second loudspeaker units (LL, LR) are arranged in a cabinet structure (CB) so as to radiate sound with at least three lobes of the first acoustic signal (L) alternating with respect to horizontal angle with at least three lobes of the second acoustic signal (R). This provides a spacious sound experience at all locations around the loudspeaker. | 11-27-2014 |
20140355765 | MULTI-DIMENSIONAL PARAMETRIC AUDIO SYSTEM AND METHOD - Systems and methods that use ultrasonic emitters for producing multi-dimensional parametric audio are provided. The systems and methods can be configured to determine HRTF filters for the left and right ears of a listener using an optical imaging system to scan a profile of a listener. Audio content may be encoded into a left and right channel for producing a three dimensional sound effect for the listener of the audio content by: processing the sound channel into left and right input channel signals; applying the HRTF filters and acoustic crosstalk cancellations filters to the left and right channel signals to generate output left and right channel signals; and modulating the left and right output channel signal frequencies onto an ultrasonic carrier. | 12-04-2014 |
20140362995 | Method and Apparatus for Location Based Loudspeaker System Configuration - In accordance with an example embodiment of the invention, a method is disclosed. Near field communication is detected between at least two devices. A location of at least one of the at least two devices is determined based on the detected near field communication. An audio channel of a multi-channel audio file is assigned based on the determined location of the at least one of the at least two devices. | 12-11-2014 |
20140362996 | STEREO SOUNDFIELD EXPANDER - An audio enhancement technique comprises a stereo audio source. The stereo audio source is split in two identical sound signals, with one of the split signals sent to a compare block and the other to an audio block. Output from the stereo audio source is fed to a stereo bus A block to create a processed audio. A bypass block for turning the processed audio on or off is provided. The output from the bypass block is fed to the compare block. The processed audio is outputted for use by user. | 12-11-2014 |
20140369504 | SYSTEM AND METHOD FOR STEREO FIELD ENHANCEMENT IN TWO-CHANNEL AUDIO SYSTEMS - The present invention provides methods and systems for digitally processing audio signals in two-channel audio systems and/or applications. In particular, the present invention includes a first filter structured to split a two-channel audio input signal into a low frequency signal and a higher frequency signal. A M/S splitter is then structured to split the higher frequency signal into a middle and a side signal. A detection module is then configured to create a detection signal from the middle signal, which is used in a compression module configured to modulate the side signal to create a gain-modulated side signal. A processing module is then structured to combine the low frequency signal, middle signal, and the gain-modulated side signal to form a final output signal. | 12-18-2014 |
20140369505 | AUDIO SYSTEM AND AUDIO APPARATUS AND CHANNEL MAPPING METHOD THEREOF - An audio system, and an audio apparatus and a channel mapping method thereof are provided. The audio apparatus includes a interface configured to receive a plurality of test tone signals from each of a plurality of sound output apparatuses configured to output multichannel audio signals, a channel determiner configured to analyze the plurality of test tone signals determine locations of the plurality of sound output apparatuses, and generate a determination result based on the determined locations, an switch configured to output one test tone to each of the plurality of sound output apparatuses, and perform channel mapping to map channels through which the multichannel audio signals are output according to the determination result, and an output unit configured to be randomly connected to the plurality of sound output apparatuses, and output the multichannel audio signals by adjusting the random connection according to the channel mapping. | 12-18-2014 |
20140369506 | METHOD, AN APPARATUS AND A COMPUTER PROGRAM FOR MODIFICATION OF A COMPOSITE AUDIO SIGNAL - The present invention provides an arrangement, e.g. a method, an apparatus and a computer program. The arrangement comprises obtaining information indicative of spatial positions of one or more sound sources within an audio image of a composite audio signal, obtaining information indicative of the types of the one or more sound sources, determining, for each of the one or more sound sources, a position in a display of the apparatus indicative of the spatial position of the sound source and causing an apparatus to display an item representing the sound source in the determined position in the display, wherein the item representing the sound source is determined on basis of the type of the sound source. The arrangement further comprises receiving an indication of a user action associated with an item indicative of a first sound source, determining an indication of a user selected modification of the audio image on basis of the user action, and modifying the composite audio signal in accordance with the user selected modification. | 12-18-2014 |
20140376725 | SOUND ENHANCEMENT FOR POWERED SPEAKERS - A process and system for enhancing and customizing sound includes receiving an input audio sound and enhancing the voice audio input in two or more harmonic and dynamic ranges by re-synthesizing the audio into a full range PCM wave. A tone adjusting circuit is provided which includes a first section for adjusting a low frequency tone, a second section for adjusting a mid frequency tone, a third section for adjusting a high frequency tone and mixing the audio outputs processed by the first, second and third sections to produce an output audio sound. The enhancement includes the parallel processing the input audio via a low pass filter with dynamic offset, an envelope controlled bandpass filter, a high pass filter, adding an amount of dynamic synthesized sub bass to the audio and combining the four treated audio signals in a summing mixer with the original audio. The low frequency tone has a frequency of 100 Hz and a bandwidth of 0.5. The mid frequency tone has a frequency of 2500 Hz and an adjustable bandwidth and the high frequency tone has a frequency of 10 KHz and an adjustable bandwidth. | 12-25-2014 |
20150016613 | SPATIAL ANGLE MODULATION BINAURAL SOUND SYSTEM - A method of inducing a state of consciousness in a listener. The method includes providing first and second sound signals. The first sound signal is provided to one ear of the listener and the second sound signal is provided to the other ear of the listener. The second sound signal is different from the first sound signal and, when provided with the first sound signal, first and second sound signals cause the listener to perceive a first source of sound that is moving about the listener or as a tremolo effect. | 01-15-2015 |
20150023505 | METHOD FOR PROCESSING OF SOUND SIGNALS - A method for processing audio signals for creating a three dimensional sound environment includes: receiving at least one input signal from at least one sound source; creating a simulated signal at least in part on the basis of the received at least one input signal, the simulated signal representing a simulation of at least one input signal reflecting from the ground or floor; and creating an output signal at least partly on the basis of the simulated signal and the at least one received input signal, the output signal including a plurality of audio channels; at least two channels of the audio channels of the output signal representing signals for sound transducers above a listener's ear level at a nominal listening position, and at least two channels of the audio channels of the output signal representing signals for sound transducers below a listeners ear level at a nominal listening position. | 01-22-2015 |
20150023506 | Sound Generator - A sound generator includes a diaphragm including n sub-diaphragms (n, the amount of the sub-diaphragms); n voice coils corresponding to the sub-diaphragms; a signal source for outputting signals of n channels; n high-pass filters for receiving the signals of n channels and outputting n high frequency signals; n low-pass filters for receiving the signals of n channels and outputting n low frequency signals; a first mixer for mixing the n low frequency signals and then outputting a low frequency signal; and n second mixers for mixing the low frequency signal and the n high frequency signals, and then outputting n driving signals. The n driving signals actuates the n corresponding sub-diaphragms for producing stereo sounds. | 01-22-2015 |
20150030159 | AUDIO PROCESSING APPARATUS - An example approach for navigation is provided with an apparatus comprising: a navigation processor configured to generate at least one navigation command; and an audio processor configured to determine at least one directional audio parameter so as to provide a direction, the at least one directional audio parameter being based on the navigation command and further configured to process at least one audio signal based on the at least one directional audio parameter such that a virtual sound image of a navigation routing is generated based on the processed at least one audio signal. | 01-29-2015 |
20150030160 | BINAURAL RENDERING METHOD AND APPARATUS FOR DECODING MULTI CHANNEL AUDIO - Disclosed is a binaural rendering method and apparatus for decoding a multichannel audio signal. The binaural rendering method may include: extracting an early reflection component and a late reverberation component from a binaural filter; generating a stereo audio signal by performing binaural rendering of a multichannel audio signal base on the early reflection component; and applying the late reverberation component to the generated stereo audio signal. | 01-29-2015 |
20150036828 | INTERNET AUDIO SOFTWARE METHOD - An audio enhancement technique comprises an audio source. Presets for the input audio sound are provided. The presetted ausio sound is tone adjusted to create a tone adjusted presetted audio. The tone adjusted presetted audio is expanded to create an expanded audio and the expanded audio is outputted for use by user. The presetted audio is subjected to a treatment by one or more modules to improve sound quality. The treatment comprises processing the audio source by the following modules: a low pass filter with dynamic offset; an envelope controlled bandpass filter; a high pass filter; and adding an amount of dynamic synthesized sub bass to the audio. The processed audio signals are combined in a summing mixer with the audio source to create an audio out signal. In one embodiment, the expanding comprises sending audio out to a block that splits, processes and combines the stereo stream into several different versions that are fed into the Stereo Bus A; feeding Stereo Bus A output to a Compare Block that adjusts the amplitude of the original and processed audio by averaging; and feeding the output from the compare block as an stereo output. In one embodiment, the tone adjustment comprises: a first section for adjusting a low frequency tone; a second section for adjusting a mid frequency tone; a third section for adjusting a high frequency tone and mixing the audio outputs processed by the first, second and third sections to produce an output audio sound. | 02-05-2015 |
20150036829 | METHOD AND APPARATUS FOR CONVERSION OF A MULTI-CHANNEL AUDIO SIGNAL INTO A TWO-CHANNEL AUDIO SIGNAL - A method for conversion of a n-channel audio signal (L, R, Ls, Rs) into a two-channel audio signal (Ro, Lo), where n≧4 and integer, includes the step of generating either one of the two-channel audio signals, right (Ro) or left (Lo), by a combination of: a front (R, L) and rear (Rs, Ls) signal components of the n-channel audio signal of the same side (right or left), and a front (L, R) signal component of the n-channel audio signal of the other side (left or right), and a term dependent of n. | 02-05-2015 |
20150043736 | METHOD OF APPLYING A COMBINED OR HYBRID SOUND-FIELD CONTROL STRATEGY - A method of applying a combined control strategy for the reproduction of multichannel audio signals in two or more sound zones, the method comprising deriving a first cost function for controlling the acoustic potential energy, such as on the basis of the Acoustic Contrast Control method and/or the Energy Difference Maximation method, in the zones to obtain acoustic separation between the zones in terms of sound pressure, deriving a second cost function, such as the Pressure Matching method, controlling the phase of the sound provided in the zones, and where a weight is obtained for determining a combination of the first and second cost functions in a combined optimization. | 02-12-2015 |
20150055783 | Statistical modelling, interpolation, measurement and anthropometry based prediction of head-related transfer functions - A system is disclosed for statistical modelling, interpolation, and user-feedback based inference of head-related transfer functions (HRTF) includes a processor performing operations that include using a collection of previously measured head related transfer functions for audio signals corresponding to multiple directions for at least one subject; and performing Gaussian process hyper-parameter training on the collection of audio signals. A method is disclosed for statistical modelling, interpolation, measurement and anthropometry based prediction of head-related transfer functions (HRTF) for a virtual audio system that includes collecting audio signals in transform domain for at least one subject; applying head related transfer functions (HRTF) measurement directions in multiple directions to the collected audio signals; and performing Gaussian hyper-parameter training on the collection of audio signals to generate at least one predicted HRTF. | 02-26-2015 |
20150063572 | MULTIDIMENSIONAL VIRTUAL LEARNING SYSTEM AND METHOD - A process and system for generating three dimensional sound conferencing includes generating a virtual map with a plurality of positions, each participant selecting one of the positions, determining a direction from each position to each other position on the map, determining a distance from each position to each other position on the map, receiving sound from each participant, mixing the received sound, transforming the mixed sound into binaural audio, and directing the binaural audio sound to each participant via a speaker associated with the virtual position of the speaking participant. The result is a clarified sound that gives to the listening participant a sense of where the speaking participant is positioned relative to the listening participant. | 03-05-2015 |
20150063573 | SYSTEMS AND METHODS FOR SIMULATION OF MIXING IN AIR OF RECORDED SOUNDS - A mixing signal processing technique modifies digital audio recordings to simulate the linear and nonlinear effects of propagation and mixing of sounds in air. When multiple sounds or complex sounds comprised of multiple frequencies in the audible spectrum propagate in such a nonlinear medium, they transfer energy into sound at new frequencies given by the sums and differences of the original signal frequencies. The mixing signal processing technique may improve the ability of a system to reproduce the effects of a live performance using a digital audio recording. | 03-05-2015 |
20150071445 | STEREO EXTENSION APPARATUS AND METHOD - Disclosed herein are a stereo extension apparatus and method. The apparatus includes a database that stores predetermined information as a result of Gaussian mixture model (GMM) training or hidden Markov model (HMM) training; a modified discrete cosine transform (MDCT) transformer that transforms a mono signal through MDCT, a feature parameter extractor that extracts a feature parameter of the mono signal from an MDCT coefficient output from the MDCT transformer, a side signal energy estimator that estimates subband energy of a side signal with reference to information stored in the database based on the feature parameter; an energy controller that obtains the MDCT coefficient of a side signal estimated from the subband energy of the estimated side signal, an inverse MDCT transformer that obtains an estimated side signal by transforming the MDCT coefficient of the estimated side signal through inverse MDCT. | 03-12-2015 |
20150071446 | Audio Processing Method and Audio Processing Apparatus - An audio processing method and an audio processing apparatus are described. A mono-channel audio signal is transformed into a plurality of first subband signals. Proportions of a desired component and a noise component are estimated in each of the subband signals. Second subband signals corresponding respectively to a plurality of channels are generated from each of the first subband signals. Each of the second subband signals comprises a first component and a second component obtained by assigning a spatial hearing property and a perceptual hearing property different from the spatial hearing property to the desired component and the noise component in the corresponding first subband signal respectively, based on a multi-dimensional auditory presentation method. The second subband signals are transformed into signals for rendering with the multi-dimensional auditory presentation method. By assigning different hearing properties to desired sound and noise, the intelligibility of the audio signal can be improved. | 03-12-2015 |
20150086023 | AUDIO CONTROL APPARATUS AND METHOD - According to an embodiment, an audio control apparatus includes a calculation unit and a determination unit. The calculation unit is configured to calculate an interaural cross-correlation function of a binaural recording signal at regular time intervals. The determination unit is configured to determine that a signal zone in which peak times of interaural cross-correlation functions are consecutively included in one of a plurality of time ranges determined in advance is a localized-sound zone in which a sound-image is localized, each of the peak times being a time at which a corresponding cross-correlation function takes a maximum value. | 03-26-2015 |
20150086024 | APPARATUS AND METHOD FOR REPRODUCING MULTI-SOUND CHANNEL CONTENTS USING DLNA IN MOBILE TERMINAL - An acoustic apparatus and a method thereof in a mobile terminal are provided. More particularly, an apparatus and a method for establishing a multi-sound system that provides sounds of sense of reality by connecting with players existing in the neighborhood and reproducing channels of contents using a plurality of players when reproducing the contents including multi-sound channels are provided. The apparatus includes a control player, a server player, and a client player. The control player selects players that reproduce respective channels using information of the channels forming the multi-sound channel contents. The server player analyzes the contents to be reproduced by the players to provide the information regarding the channels to the control player. The client player reproduces the channels of the relevant contents under control of the control player. | 03-26-2015 |
20150092945 | Audio Data Processing Device and Audio Data Processing Method - An audio data processing device includes a mixing unit that mixes first audio data and second audio data to generate mixed audio data, a first output unit that outputs, to a first speaker, audio data not having undergone the mixing, a second output unit that outputs, to a second speaker, the mixed audio data generated by the mixing unit, a processor which is provided between a point of branching to the mixing unit and the first output unit or between the mixing unit and the second output unit and adds an acoustic effect, and a delay unit which is provided between the branching point and the first output unit or between the mixing unit and the second output unit and delays the audio data so that a relationship of timing between input, to the first speaker, of the audio data output from the first output unit and input, to the second speaker, of the audio data output from the second output unit coincides with a relationship of timing of input between the first audio data and the second audio data. | 04-02-2015 |
20150117648 | AUDIO SIGNAL PROCESSING DEVICE, AUDIO SIGNAL PROCESSING METHOD, AND COMPUTER PROGRAM - Provided is an audio signal processing device including a signal processing section that changes, at a time of generating and outputting 2-channel audio signals to be subjected to sound reproduction by two electroacoustic transducing means located at positions in the vicinities of both ears of a listener, from audio signals of a plurality of and more than two channels, virtual sound image localization positions on a circle around the listener, across the virtual sound image localization positions, the virtual sound image localization position that is supposed for each of the plurality of channels of audio signals provided on the circle. | 04-30-2015 |
20150117649 | Selective Audio Source Enhancement - A selective audio source enhancement system includes a processor and a memory, and a pre-processing unit configured to receive audio data including a target audio signal, and to perform sub-band domain decomposition of the audio data to generate buffered outputs. In addition, the system includes a target source detection unit configured to receive the buffered outputs, and to generate a target presence probability corresponding to the target audio signal, as well as a spatial filter estimation unit configured to receive the target presence probability, and to transform frames buffered in each sub-band into a higher resolution frequency-domain. The system also includes a spectral filtering unit configured to retrieve a multichannel image of the target audio signal and noise signals associated with the target audio signal, and an audio synthesis unit configured to extract an enhanced mono signal corresponding to the target audio signal from the multichannel image. | 04-30-2015 |
20150117650 | METHOD OF GENERATING MULTI-CHANNEL AUDIO SIGNAL AND APPARATUS FOR CARRYING OUT SAME - A method of generating a multi-channel audio signal includes: representing locations of a plurality of speakers as a plurality of polygons whose vertices are located at locations of corresponding speakers; acquiring a location of an object sound; calculating distances between the plurality of polygons and the location of the object sound; selecting one of the plurality of polygons on the basis of the calculated distances; and generating a multi-channel audio signal that corresponds to speakers corresponding to the selected polygon by mapping the object sound to the speakers corresponding to the selected polygon. | 04-30-2015 |
20150124972 | AUDIO PROCESSING FOR MONO SIGNALS - It is inter alia disclosed to generate a signal representation at least based on a noise reduced component from a signal and on a noise component from the signal, said signal representation comprising at least two channel representations. | 05-07-2015 |
20150131799 | APPARATUS AND METHOD FOR PROCESSING MULTI-CHANNEL AUDIO SIGNAL USING SPACE INFORMATION - An apparatus for and a method of processing a multi-channel audio signal using space information. The apparatus includes: a main coding unit down mixing a multi-channel audio signal by applying space information to surround components included in the multi-channel audio signal, generating side information using the multi-channel audio signal or a stereo signal of a down-mixed result, coding the stereo signal and the side information, and transmitting the coded result as a coding signal; and a main decoding unit receiving the coding signal, decoding the stereo signal and the side information using the received coding signal, up mixing the decoded stereo signal using the decoded side information, and restoring the multi-channel audio signal. | 05-14-2015 |
20150139426 | SPATIAL AUDIO PROCESSING APPARATUS - An apparatus comprising: a directional analyser configured to determine a directional component of at least two audio signals; an estimator configured to determine at least one virtual position or direction relative to the actual position of the apparatus; and a signal generator configured to generate at least one further audio signal dependent on the at least one virtual position or direction relative to the actual position of the apparatus and the directional component of at least two audio signals. | 05-21-2015 |
20150139427 | SIGNAL PROCESSING APPARATUS, SIGNAL PROCESSING METHOD, PROGRAM, AND SPEAKER SYSTEM - Provided is a natural surround sound field balanced in volume in a multichannel surround reproduction environment, regardless of the positions of speakers actually disposed. Arrangement position information on real speakers is acquired. Based on the arrangement position information, a target position of a virtual speaker corresponding to a real speaker is set such that the virtual speaker is disposed in or near an ideal disposition area of the real speaker. The ideal disposition area of the real speaker is an area corresponding to the arrangement position of the speaker at the time of creation of a sound source. Based on the target position of the virtual speaker, the disposition of the virtual speaker is controlled. | 05-21-2015 |
20150296086 | PLACEMENT OF TALKERS IN 2D OR 3D CONFERENCE SCENE - The present document relates to setting up and managing two-dimensional or three-dimensional scenes for audio conferences. A conference controller ( | 10-15-2015 |
20150296318 | SOUND-SOURCE SEPARATION METHOD, APPARATUS, AND PROGRAM - Filtering containing a delay by a specific time is performed on one of the pair of input signals are input from microphones L, R. After the filtering, a pair of input signals InL and InR are alternately interchanged for each sampling by an interchanging circuit | 10-15-2015 |
20150332681 | CLOSED LOOP QUANTIZATION OF HIGHER ORDER AMBISONIC COEFFICIENTS - In general, techniques are described for closed loop quantization of HOA coefficients that provide a three-dimensional representation of the sound field. An audio encoding device may perform closed loop quantization of an audio object based at least in part on a result of performing quantization of directional information associated with the audio object. An audio decoding device may obtain an audio object that has been closed loop quantized based at least in part on a result of performing quantization of directional information associated with the audio object, and may dequantize the audio object. | 11-19-2015 |
20150334500 | PRODUCING A MULTICHANNEL SOUND FROM STEREO AUDIO SIGNALS - The invention relates to a method for generating a multichannel audio signal ( | 11-19-2015 |
20150334505 | Virtual Simulation of Spatial Audio Characteristics - Embodiments of the present invention are directed to a system and method for demonstrating spatial performance of a demonstration speaker model to consumers in order to evaluate different speakers. The system and method comprise a microphone array for recording the output of the demonstration speaker model. The system and method comprise acoustic input samples for processing to an acoustic output and a processor for determining characteristics of each microphone recording, and processing an acoustic input sample and characteristics of each microphone recording corresponding to a selected demonstration speaker model. The system and method further comprise a reference speaker model for outputting an acoustic signal based on the result of the processing. The processing compensates for the performance characteristic of the reference speaker and the performance characteristic of the selected demonstration speaker so as to mimic the spatial characteristics of the demonstration speaker while avoiding bias from the reference speaker. | 11-19-2015 |
20150341735 | SOUND SOURCE SEPARATION APPARATUS AND SOUND SOURCE SEPARATION METHOD - An apparatus of this invention stably separates a sound source even when the relative positional relationship between the sound source and a sound pickup device has changed. This apparatus includes a sound pickup unit configured to pick up sound signals of a plurality of channels, a detector configured to detect a change in a relative positional relationship between a sound source and the sound pickup unit, a phase regulator configured to regulate a phase of the sound signal in accordance with the relative position change amount detected by the detector, a parameter estimator configured to estimate a variance and spatial correlation matrix of a sound source signal as sound source separation parameters with respect to the phase-regulated sound signal, and a sound source separator configured to generate a separation filter from the estimated parameters, and perform sound source separation. | 11-26-2015 |
20150341736 | OBTAINING SYMMETRY INFORMATION FOR HIGHER ORDER AMBISONIC AUDIO RENDERERS - In general, techniques are described for obtaining audio rendering information in a bitstream. A device configured to render higher order ambisonic coefficients comprising a processor and a memory may perform the techniques. The processor may be configured to obtain sign symmetry information indicative of sign symmetry of a matrix used to render the higher order ambisonic coefficients to generate a plurality of speaker feeds. The memory may be configured to store the sparseness information. | 11-26-2015 |
20150350788 | ACOUSTIC CONTROL APPARATUS - According to an embodiment, an acoustic control apparatus applied to a loudspeaker system including first to Mth loudspeakers includes first to Mth control filters. The first to Mth control filters convolve a first input sound signal with first to Mth control filter coefficients to generate first to Mth sound signals. The first to Mth loudspeakers produce sounds based on the first to Mth sound signals. The second to Mth control filter coefficients are calculated based on the first control filter coefficient, and at least one first acoustic transfer function set from the first to Mth loudspeakers to at least one first one-ear position, so that a spatial average of at least one sound pressure of the sounds at the at least one first one-ear position comes close to 0. | 12-03-2015 |
20150350803 | SYNCHRONIZATION OF INDEPENDENT OUTPUT STREAMS - A system determines to use at least two independent renderers to render at least two output streams that are to be synchronized. The independent renderers are provided with a shared synchronization object when instructed to render the respective output stream. A time when all of the independent renderers can render a respective first buffer of the respective output stream is determined from the shared synchronization object. Rendering of the output streams utilizing the independent renderers is begun at the determined time. In this way, rendering of the output streams may be synchronized. | 12-03-2015 |
20150356975 | APPARATUS FOR PROCESSING AUDIO SIGNAL FOR SOUND BAR AND METHOD THEREFOR - An audio signal processing apparatus and method for reproducing a sound field using a sound bar are disclosed, wherein the audio signal processing apparatus may include an audio signal output unit to process an input signal and output an N channel audio signal and a speak signal generator to generate an M channel speaker signal using an audio signal output position of each channel and the N channel audio signal. | 12-10-2015 |
20150358754 | BINAURAL AUDIO PROCESSING - A transmitting device comprises a binaural circuit ( | 12-10-2015 |
20150358755 | Sparse Decomposition of Head Related Impulse Responses With Applications to Spatial Audio Rendering - This application describes methods of signal processing and spatial audio synthesis. One such method includes accepting an auditory signal and generating an impression of auditory virtual reality by processing the auditory signal to impute a spatial characteristic on it via convolution with a plurality of head-related impulse responses. The processing is performed in a series of steps, the steps including: performing a first convolution of an auditory signal with a characteristic-independent, mixed-sign filter and performing a second convolution of the result of first convolution with a characteristic-dependent, sparse, non-negative filter. In some described methods, the first convolution can be pre-computed and the second convolution can be performed in real-time, thereby resulting in a reduction of computational complexity in said methods of signal processing and spatial audio synthesis. | 12-10-2015 |
20150358756 | AN AUDIO APPARATUS AND METHOD THEREFOR - An audio apparatus comprises a receiver ( | 12-10-2015 |
20150365766 | METHOD FOR SEPARATING AUDIO SOURCES AND AUDIO SYSTEM USING THE SAME - A method for separating audio sources and an audio system using the same are provided. The method introduces the concept of a residual signal to separate a mixed audio signal into audio sources, and separates an audio signal corresponding to at least two of the audio sources as a residual signal and processes the audio signal separately. Therefore, audio separation performance can be improved. In addition, the method re-separates a separated residual signal and adds the separated residual signals to corresponding audio sources. Therefore, audio sources can be separated more safely. | 12-17-2015 |
20150365777 | METHOD AND APPARATUS FOR REPRODUCING STEREOPHONIC SOUND - Method and apparatus reproduce a stereophonic sound. The method includes obtaining sound depth information which denotes a distance between at least one object within a sound signal and a reference position, and providing sound perspective to the sound object output from a speaker, based on the sound depth information. | 12-17-2015 |
20150373474 | AUGMENTED REALITY SOUND SYSTEM - An augmented reality sound systems is disclosed. An augmented reality sound system includes a at least one microphone for receiving ambient sound and a memory storing one or more augmented reality sound profiles and a respective set of processing parameters. The system further includes a processor coupled to the memory and configured to generate augmented ambient sound from the ambient sound by reproducing the ambient sound in conjunction with processed sound superimposed over the ambient sound as directed by one or more of the set of processing parameters retrieved from the memory based on a selected augmented reality sound profile. | 12-24-2015 |
20150382127 | AUDIO SPATIAL RENDERING APPARATUS AND METHOD - An audio spatial rendering apparatus and method are disclosed. In one embodiment, The audio spatial rendering apparatus includes a rendering unit for spatially rendering an audio stream so that the reproduced far-end sound is perceived by a listener as originating from at least one virtual spatial position, a real position obtaining unit for obtaining a real spatial position of a real sound source, a comparator for comparing the real spatial position with the at least one virtual spatial position; and an adjusting unit for, where the real spatial position is within a predetermined range around at least one virtual spatial position, or vice versa, adjusting the parameters of the rendering unit so that the at least one virtual spatial position is changed. | 12-31-2015 |
20160007132 | REDUCING CORRELATION BETWEEN HIGHER ORDER AMBISONIC (HOA) BACKGROUND CHANNELS - In general, techniques are described for compression and decoding of audio data are generally disclosed. An example device for compressing audio data includes one or more processors configured to apply a decorrelation transform to ambient ambisonic coefficients to obtain a decorrelated representation of the ambient ambisonic coefficients, the ambient HOA coefficients having been extracted from a plurality of higher order ambisonic coefficients and representative of a background component of a soundfield described by the plurality of higher order ambisonic coefficients, wherein at least one of the plurality of higher order ambisonic coefficients is associated with a spherical basis function having an order greater than one. | 01-07-2016 |
20160029139 | APPARATUS AND METHOD FOR PROCESSING MULTI-CHANNEL AUDIO SIGNAL - Disclosed is an apparatus and method for processing a multichannel audio signal. A multichannel audio signal processing method may include: generating an N-channel audio signal of N channels by down-mixing an M-channel audio signal of M channels; and generating a stereo audio signal by performing binaural rendering of the N-channel audio signal. | 01-28-2016 |
20160034248 | METHODS, SYSTEMS, AND COMPUTER READABLE MEDIA FOR CONDUCTING INTERACTIVE SOUND PROPAGATION AND RENDERING FOR A PLURALITY OF SOUND SOURCES IN A VIRTUAL ENVIRONMENT SCENE - Methods, systems, and computer readable media for conducting interactive sound propagation and rending for a plurality of sound sources in a virtual environment scene are disclosed. According to one method, the method includes decomposing a virtual environment scene containing a plurality of sound sources into a plurality of partitions and forming a plurality of source group clusters, wherein each of the source group clusters includes two or more of the sound sources located within a common partition. The method further includes determining, for each of the source group clusters, a single set of sound propagation paths relative to a listener position and generating a simulated output sound at a listener position using sound intensities associated with the determined sets of sound propagation paths. | 02-04-2016 |
20160036987 | Normalization of Soundfield Orientations Based on Auditory Scene Analysis - Embodiments are described for a soundfield system that receives a transmitting soundfield, wherein the transmitting soundfield includes a sound source at a location in the transmitting soundfield. The system determines a rotation angle for rotating the transmitting soundfield based on a desired location for the sound source. The transmitting soundfield is rotated by the determined angle and the system obtains a listener's soundfield based on the rotated transmitting soundfield. The listener's soundfield is transmitted for rendering to a listener. | 02-04-2016 |
20160037280 | System and Tools for Enhanced 3D Audio Authoring and Rendering - Improved tools for authoring and rendering audio reproduction data are provided. Some such authoring tools allow audio reproduction data to be generalized for a wide variety of reproduction environments. Audio reproduction data may be authored by creating metadata for audio objects. The metadata may be created with reference to speaker zones. During the rendering process, the audio reproduction data may be reproduced according to the reproduction speaker layout of a particular reproduction environment. | 02-04-2016 |
20160037281 | MEMORY MANAGEMENT TECHNIQUES AND RELATED SYSTEMS FOR BLOCK-BASED CONVOLUTION - A processor can be associated with a memory for storing convolution data. A plurality of M filters from a corresponding plurality of M input channels to a selected one output channel can be provided, wherein each filter can be represented by a corresponding index, m. Each of the M filters can be partitioned into K respective filter partitions, wherein each respective filter partition can be represented by a corresponding index, k. A frequency-domain representation of each filter partition can be provided, wherein each frequency-domain representation of a filter partition comprises N frequency bins and a corresponding frequency-domain filter coefficient, wherein each respective frequency bin can be represented by a corresponding index, n. The memory can store such information in an arrangement suitable for the processor to concurrently receive sufficient information to concurrently convolve a frame of each input signal with the respective filters. | 02-04-2016 |
20160044430 | METHOD AND SYSTEM FOR HEAD-RELATED TRANSFER FUNCTION GENERATION BY LINEAR MIXING OF HEAD-RELATED TRANSFER FUNCTIONS - A method for performing linear mixing on coupled Head-related transfer functions (HRTFs) to determine an interpolated HRTF for any specified arrival direction in a range (e.g., a range spanning at least 60 degrees in a plane, or a full range of 360 degrees in a plane), where the coupled HRTFs have been predetermined to have properties such that linear mixing can be performed thereon (to generate interpolated HRTFs) without introducing significant comb filtering distortion. In some embodiments, the method includes steps of: in response to a signal indicative of a specified arrival direction, performing linear mixing on data indicative of coupled HRTFs of a coupled HRTF set to determine an HRTF for the specified arrival direction; and performing HRTF filtering on an audio input signal using the HRTF for the specified arrival direction. | 02-11-2016 |
20160044432 | AUDIO SIGNAL PROCESSING APPARATUS - The invention relates to an audio signal processing apparatus for processing an audio signal, the audio signal processing apparatus comprising: a converter configured to convert a stereo audio signal into a binaural audio signal; and a determiner configured to determine upon the basis of an indicator signal whether the audio signal is a stereo audio signal or a binaural audio signal, the indicator signal indicating whether the audio signal is a stereo audio signal or a binaural audio signal, the determiner being further configured to provide the audio signal to the converter if the audio signal is a stereo audio signal. | 02-11-2016 |
20160057557 | MULTIDIMENSIONAL VIRTUAL LEARNING SYSTEM AND METHOD - A process and system for generating three dimensional sound conferencing includes generating a virtual map with a plurality of positions, each participant selecting one of the positions, determining a direction from each position to each other position on the map, determining a distance from each position to each other position on the map, receiving sound from each participant, mixing the received sound, transforming the mixed sound into binaural audio, and directing the binaural audio sound to each participant via a speaker associated with the virtual position of the speaking participant. The result is a clarified sound that gives to the listening participant a sense of where the speaking participant is positioned relative to the listening participant. | 02-25-2016 |
20160073215 | AN AUDIO APPARATUS AND METHOD THEREFOR - An audio apparatus comprises a receiver ( | 03-10-2016 |
20160080881 | Sound Stage Controller for a Near-Field Speaker-Based Audio System - Signals in an automobile audio system having at least two near-field speakers located close to an intended position of a listener's head are adjusted such that in a first mode, audio signals are distributed to the near-field speakers according to a first filter that causes the listener to perceive a wide soundstage, and in a second mode, the audio signals are distributed to the near-field speakers according to a second filter that causes the listener to perceive a narrow soundstage. A user input of a variable value is received and, in response, distribution of the audio signals is transitioned from the first mode to the second mode, the extent of the transition being variable based on the value of the user input. | 03-17-2016 |
20160080882 | Method for Playing Back the Sound of a Digital Audio Signal - A method for playing back the sound of a digital audio signal comprising an oversampling step consisting of producing, from a signal sampled at a frequency F, a signal sampled at a frequency N×F, where N corresponds to an integer greater than 1, then of applying convolution processing to a first digital file sampled at a frequency N×F corresponding to the acquisition of the soundscape of a reference sound space, a second digital file sampled at a frequency N×F corresponding to the acquisition of the noise footprint of a piece of reference playback equipment, a third digital file sampled at a frequency N×F corresponding to the acquisition of the noise footprint of an equalizer and a fourth file corresponding to said oversampled audio file, the resulting digital packets then undergoing digital conversion processing at a sampling frequency F/M corresponding to the working frequency of the listening equipment. | 03-17-2016 |
20160080884 | AUDIO SIGNAL PROCESSING METHOD - Disclosed is an audio signal processing method. The audio signal processing method according to the present invention comprises the steps of: receiving a bit-stream including at least one of a channel signal and an object signal; receiving a user's environment information; decoding at least one of the channel signal and the object signal on the basis of the received bit-stream; generating the user's reproducing channel information on the basis of the user's received environment information; and generating a reproducing signal through a flexible renderer on the basis of at least one of the channel signal and the object signal and the user's reproducing channel information. | 03-17-2016 |
20160080886 | AN AUDIO PROCESSING APPARATUS AND METHOD THEREFOR - An audio processing apparatus comprises a receiver ( | 03-17-2016 |
20160088417 | HEAD MOUNTED DISPLAY AND METHOD FOR PROVIDING AUDIO CONTENT BY USING SAME - The present invention relates to a head mounted display (HMD) for adaptively augmenting virtual audio signals according to an actual audio signal-listening environment, and to a method for providing audio content by using same. To this end, the present invention provides the HMD comprising: a processor for controlling the operation of the HMD; a microphone unit for receiving real sound; and an audio output unit for outputting a sound based on a command from the processor, wherein the processor receives the real sound using the microphone unit, obtains a virtual audio signal, extracts spatial audio parameters by using the received real sound; filters the virtual audio signal using the extracted spatial audio parameters, and outputs the filtered virtual audio signal to the audio output unit. | 03-24-2016 |
20160088418 | SIGNAL CONTROL APPARATUS - A signal control apparatus comprises: a first delay unit that receives a modulated signal corresponding to a positive input signal component; a second delay unit that receives a modulated signal corresponding to a negative input signal component; transducers that receive signals from the delay units and that output, as ultrasonic waves, the received signals; a microphone that detects the ultrasonic waves outputted from the transducers; a waveform characteristic detection unit that integrates the detected ultrasonic waves, thereby detecting the waveform characteristics of the positive sonic wave and of the negative sonic wave; and a delay adjustment unit that inputs, based on the detected waveform characteristics, to the first delay unit or second delay unit, the information of a delay amount being in accordance with a phase difference between the signal outputted from the first delay unit and the signal outputted from the second delay unit to reduce the phase difference. | 03-24-2016 |
20160099009 | METHOD FOR REPRODUCING CONTENTS AND ELECTRONIC DEVICE THEREOF - An electronic device for reproducing data and a method thereof are provided. The electronic device includes a memory; and a processor. The processor is configured to determine a spatial characteristic of a space where content is reproduced, store the spatial characteristic in the memory, and change a sound of the content based on the spatial characteristic when the content is reproduced. | 04-07-2016 |
20160100200 | SYSTEMS AND METHODS FOR PROVIDING PERSONALIZED AUDIO CONTENT - A method for providing audio content to a user device in a movie theater includes the steps of personalizing the audio content for the user device based on an identifier and providing the personalized audio content to the user device. In some embodiments, the identifier is based on demographic information about the user. According to some embodiments, the personalized audio content accompanies additional content that is not provided by the user device. In some embodiments, the personalized audio content accompanies a movie. | 04-07-2016 |
20160100268 | DIGITAL AUDIO FILTERS FOR VARIABLE SAMPLE RATES - Various exemplary embodiments relate to a method and apparatus for processing audio signals to influence the reproduction of the audio signals. The apparatus may include a speaker, a headphone (over-the-ear, on-ear, or in-ear), a microphone, a computer, a mobile device, a home theater receiver, a television, a Blu-ray (BD) player, a compact disc (CD) player, a digital media player, or the like. The apparatus may be configured to receive a virtualization profile including a digital audio filter with a design sample rate, resample the virtualization profile to a different sample rate, filter the audio signal with the resampled virtualization profile, and reproduce the filtered audio signal as sound. | 04-07-2016 |
20160100269 | AUDIO SYSTEM AND METHOD FOR PREDICTING ACOUSTIC FEATURE - An audio system and method using indoor response estimation are disclosed. An acoustic feature prediction method of the audio system may include generating a detection signal based on an input signal and a modulation code; generating an acoustic signal based on the detection signal and outputting the acoustic signal to a plurality of speakers; measuring acoustic signals output from the speakers where the speakers are installed; and predicting acoustic features related to the speakers based on the measured acoustic signals and the modulation code. | 04-07-2016 |
20160112811 | HEARING SYSTEM - The present disclosure regards a hearing device configured to receive acoustical sound signals and to generate output sound signals comprising spatial cues. | 04-21-2016 |
20160112820 | VIRTUAL SOUND IMAGE LOCALIZATION METHOD FOR TWO DIMENSIONAL AND THREE DIMENSIONAL SPACES - A virtual sound image localization method in a two-dimensional (2D) space and three-dimensional (3D) space is provided. The virtual sound image localization method may include setting a reproduction region including at least one loudspeaker available in an output channel; dividing the reproduction region into a plurality of sub-regions; determining a sub-region in which a virtual sound source to be reproduced is located among the sub-regions; determining a panning coefficient used to reproduce the virtual sound source, based on the determined sub-region; and rendering an input signal based on the panning coefficient. | 04-21-2016 |
20160119733 | SPATIAL OBJECT ORIENTED AUDIO APPARATUS - An apparatus comprising: a perception sorter configured to perceptually order at least two object orientated audio signal channels; and a selective channel processor configured to process at least one of the at least two object orientated audio signal channels based on the order of the at least two object orientated audio signal channels. | 04-28-2016 |
20160128891 | METHOD AND APPARATUS FOR PROVIDING SPACE INFORMATION - A method and an apparatus for providing space information to a visually handicapped person using a reflected sound of ultrasonic wave. The apparatus for providing space information includes: an ultrasonic transmitting and receiving unit transmitting an ultrasonic wave for acquiring the space information to a surrounding space and receiving a reflected sound of ultrasonic wave reflected from obstacles through at least two channels; and a stereophonic sound converting unit converting the received reflected sound into an audible sound and outputting the audible sound. | 05-12-2016 |
20160142848 | DETERMINATION OF HEAD-RELATED TRANSFER FUNCTION DATA FROM USER VOCALIZATION PERCEPTION - A method and apparatus are disclosed to determine individualized head-related transfer function (HRTF) parameters for a user. The technique can include determining HRTF data of a user by using transform data of the user, where the transform data is indicative of a difference, as perceived by the user, between a sound of a direct utterance by the user and a sound of an indirect utterance by the user. The technique may further involve producing an audio effect tailored for the user by processing audio data based on the HRTF data of the user. | 05-19-2016 |
20160142849 | CONFIGURING TELEVISION SPEAKERS - Methods, systems, and apparatuses are described for configuring television speakers. A television may be configured to operate as a center channel speaker for an audio system. Television speakers may be calibrated according to other speakers utilized by the audio system. The handling of HDMI commands by the television may modified such that the television speakers and the audio system speakers concurrently produce sound. | 05-19-2016 |
20160150342 | IMAGE REPRODUCING DEVICE AND METHOD - A method of reproducing an image, performed by a device for reproducing an image is provided, the device being capable of changing a curvature of a panel of a display, the method including obtaining the curvature of the panel of the display and applying a sound setting based on the obtained curvature of the panel of the display. | 05-26-2016 |
20160165375 | METHOD AND APPARATUS FOR GENERATING SIDE INFORMATION BITSTREAM OF MULTI-OBJECT AUDIO SIGNAL - Provided is a method and apparatus for generating a side information bitstream of a multi-object audio signal. The apparatus for generating a side information bitstream of a multi-object audio signal includes a spatial cue information input unit configured to receive spatial cue information generated in an encoder of the multi-object audio signal, a preset information input unit configured to receive preset information for the multi-object audio signal, and a side information bitstream generator configured to generate the side information bitstream based on the spatial cue information and the preset information. The side information bitstream includes a header region and a frame region, and the preset information is included in the frame region. | 06-09-2016 |
20160174012 | SYSTEM AND METHOD FOR PROCESSING AN INPUT SIGNAL TO PRODUCE 3D AUDIO EFFECTS | 06-16-2016 |
20160183023 | AUDIO FILE PLAYING METHOD AND APPARATUS | 06-23-2016 |
20160183024 | METHOD AND APPARATUS FOR PROVIDING VIRTUAL AUDIO REPRODUCTION | 06-23-2016 |
20160198280 | DEVICE AND METHOD FOR DECORRELATING LOUDSPEAKER SIGNALS | 07-07-2016 |
20160205474 | METHOD FOR OPERATING AN ARRANGEMENT OF SOUND TRANSDUCERS ACCORDING TO THE WAVE FIELD SYNTHESIS PRINCIPLE | 07-14-2016 |
20160205488 | Multiuser, Geofixed Acoustic Simulations | 07-14-2016 |
20160205489 | METHOD AND APPARATUS FOR CONTROLLING MULTIMEDIA EXECUTION ON A DEVICE | 07-14-2016 |
20160255452 | METHOD AND APPARATUS FOR COMPRESSING AND DECOMPRESSING SOUND FIELD DATA OF AN AREA | 09-01-2016 |
20160381478 | SYSTEM FOR OBJECTIVE QUALIFICATION OF LISTENER ENVELOPMENT OF A LOUDSPEAKER-ROOM ENVIRONMENT - A system quantifies listener envelopment in a loudspeakers-room environment. The system includes a binaural detector that receives frequency modulated audible noise signals from multiple loudspeakers. The binaural detector generates detected signals that are analyzed to determine an objective listener envelopment. The envelopment is based on binaural activity of one or more sub-bands of the detected signal. | 12-29-2016 |
20160381483 | System and Method for Adaptive Audio Signal Generation, Coding and Rendering - Embodiments are described for an adaptive audio system that processes audio data comprising a number of independent monophonic audio streams. One or more of the streams has associated with it metadata that specifies whether the stream is a channel-based or object-based stream. Channel-based streams have rendering information encoded by means of channel name; and the object-based streams have location information encoded through location expressions encoded in the associated metadata. A codec packages the independent audio streams into a single serial bitstream that contains all of the audio data. This configuration allows for the sound to be rendered according to an allocentric frame of reference, in which the rendering location of a sound is based on the characteristics of the playback environment (e.g., room size, shape, etc.) to correspond to the mixer's intent. The object position metadata contains the appropriate allocentric frame of reference information required to play the sound correctly using the available speaker positions in a room that is set up to play the adaptive audio content. | 12-29-2016 |
20170236531 | REAL-TIME ADAPTIVE AUDIO SOURCE SEPARATION | 08-17-2017 |
20170238111 | INFORMATION PROCESSING APPARATUS AND INFORMATION PROCESSING METHOD | 08-17-2017 |
20170238116 | RENDERING OF AUDIO OBJECTS WITH APPARENT SIZE TO ARBITRARY LOUDSPEAKER LAYOUTS | 08-17-2017 |
20170238120 | DISTRIBUTED WIRELESS SPEAKER SYSTEM | 08-17-2017 |
20220139403 | Audio System Height Channel Up-Mixing - Audio system height channel up-mixing that is configured to develop two or more height channels from audio sources that do not include height-related encoding. The up-mixing involves determining correlations and normalized channel energies between input audio signals. At least two height channels (e.g., left and right height audio signals) are developed from the correlations and normalized energies. | 05-05-2022 |
20220141612 | Spatial Audio Processing - According to an example embodiment, a technique for spatial audio processing including: determining at least one spatial parameter based, at least partially, on at least one input audio signal captured with at least one first device, configured to represent at least a portion of an audio scene; identifying a portion of interest of the audio scene based, at least partially, on the at least one spatial parameter; generating at least one first audio signal based, at least partially, on the at least one input audio signal; generating at least one second audio signal based, at least partially, on at least one audio signal captured with at least one second device; and combining, at least partially, the at least one first audio signal and the at least one second audio signal into at least one combined audio signal. | 05-05-2022 |