| 01st week of 2013 patent applcation highlights part 39 |
| Patent application number | Title | Published |
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| 20130003806 | COMMUNICATION DEVICE, A COMMUNICATION SYSTEM AND A COMMUNICATION CONTROL METHOD - Provided is a communication device which can handle variation in transmission power accompanying switching of a modulation system. | 2013-01-03 |
| 20130003807 | Method and Apparatus for Estimating a Doppler Frequency - A method for supporting wireless communication over a physical channel in a mobile broadband system includes providing an estimate of the channel and obtaining a channel autocorrelation function of a channel impulse response of the channel. The method also includes expressing the channel autocorrelation function as a zero order Bessel function and applying Taylor expansion to the zero order Bessel function. Additionally, the method includes performing derivation of the channel autocorrelation function to obtain an estimate of the maximum Doppler frequency and using the obtained estimate of the maximum Doppler frequency to compensate for a current Doppler effect in a receiver receiving the signals. | 2013-01-03 |
| 20130003808 | System and Method for Non-Uniform Bit Allocation in the Quantization of Channel State Vectors - A system and method for non-uniform bit allocation in the quantization of channel state vectors is provided. A method for communications node operation includes receiving a bit-allocation profile for use in quantizing channel state information, measuring a communications channel between the communications node and a controller, generating channel state information based on the measurement, computing a bit representation of the channel state information, transmitting the bit representation to the controller, and receiving a transmission from the controller. The computing makes use of quasi-tail-biting trellis decoding, and the computing is based on the bit-allocation policy. The transmission makes use of the channel state information transmitted by the communications node. | 2013-01-03 |
| 20130003809 | SYSTEM AND METHODS FOR DETERMINING RADIATED RADIO FREQUENCY (RF) RECEIVER SENSITIVITY - A test method is for determining RF sensitivity of an RF receiver for a plurality of channels extending over a frequency band(s) using an RF source coupled to the RF receiver by an RF communications link. The plurality of channels may include channels having a predictable RF sensitivity and a channel(s) having a non-predictable RF sensitivity. The test method may include measuring an RF sensitivity for one or more of the channels having the predictable RF sensitivity, and generating a partial RF sensitivity function for the channels having the predictable RF sensitivity based thereon. The method may further include measuring an RF sensitivity for the channel(s) having the non-predictable RF sensitivity. Additionally, an overall RF sensitivity function may be generated for the plurality of channels based upon the partial RF sensitivity function, and based upon the measured RF sensitivity for the channel(s) having the non-predictable RF sensitivity. | 2013-01-03 |
| 20130003810 | METHOD FOR TESTING A RADIO FREQUENCY (RF) RECEIVER AND RELATED METHODS - A method for testing a radio frequency (RF) receiver may include measuring a plurality of bit error levels for the RF receiver at a given RF frequency. The method may further include applying a Huber function to the measured plurality of bit error levels to generate a bit error ratio (BER) estimate for the RF receiver. The method would also include using the BER estimate to generate a sensitivity for the RF receiver. | 2013-01-03 |
| 20130003811 | COMMUNICATION APPARATUS AND RECEPTION POWER MEASURING METHOD - A communication apparatus includes: a quadrature detection unit 13 for performing a quadrature detection on a baseband OFDM signal and generating a complex OFDM signal; an FFT unit for performing a Fourier transform process on the complex OFDM signal and outputting a complex symbol with respect to each subcarrier; and a reception power calculation unit for obtaining a reception power of a reception signal based on the sum of squares of an in-phase signal and a quadrature signal of the complex symbol of the subcarrier outputted from the FFT unit. The reception power calculation unit includes a table indicating the relationship between the reception power and the sum of squares of the in-phase signal and the quadrature signal of the complex symbol, and obtains the reception power of the reception signal by using the table. | 2013-01-03 |
| 20130003812 | METHOD FOR SELECTING A PRECODING MATRIX IN A MULTIPLE INPUT MULTIPLE OUTPU ("MIMO") SYSTEM - A method for selecting a precoding matrix to be used in a MIMO communication system includes a transmitter, a receiver and a communication channel, wherein the precoding matrix is used by the transmitter to precode codewords to be transmitted to the receiver over the communication channel. At the receiver, an optimum precoding matrix within a codebook of precoding matrices is determined on the base of a metric related to the power of received signal layers. An indication is then fed back from the receiver to the transmitter useful to enable the transmitter to select the optimum precoding matrix from the codebook. | 2013-01-03 |
| 20130003813 | IMPULSE NOISE DIAGNOSIS DURING RETRANSMISSION - Disclosed and recited herein are devices, systems, methods, and programs by which data is transmitted and, when receipt of the transmitted data has not been acknowledged, an impulse noise occurrence may be diagnosed at the transmitter based on flag streams associated with data transfer units corresponding to the transmitted data. Characteristics of the impulse noise occurrence may be diagnosed based on, at least, a number of consecutive error bits in at least one of the flag streams associated with the data transfer units corresponding to the transmitted data. | 2013-01-03 |
| 20130003814 | Load Estimation in Frequency Domain Pre-Equalization Systems - An arrangement ( | 2013-01-03 |
| 20130003815 | METHOD AND A DEVICE FOR PREVENTING SIGNAL-EDGE LOSSES - A method for marking a signal edge, which has been removed from at least one decimated binary signal after the decimation of an associated binary signal, within the decimated binary signal, establishes successive signal portions of the respective binary signal, in each case with a number of sampled values corresponding to a decimation factor of the decimation. It detects a signal edge removed through decimation from each signal portion if the number of signal edges determined in each signal portion of the respective binary signal is greater than one. Then, the sampled values of the respective decimated binary signal are determined through decimation of the sampled values of the associated binary signal with the decimation factor, and the removed signal edge at the sampling time of the decimated binary signal which corresponds to the signal portion of the associated binary signal with the signal edge removed through decimation is marked. | 2013-01-03 |
| 20130003816 | METHOD AND APPARATUS FOR CHANNEL AND NOISE ESTIMATION - Techniques for performing channel and noise estimation for a MIMO transmission sent from multiple transmit antennas to multiple receive antennas are described. Samples are obtained from the receive antennas. For a first scheme, channel estimates are derived by correlating the samples with at least one pilot sequence, and signal, noise and interference statistics are also estimated based on the samples. For a second scheme, total received energy as well as signal and interference energy are estimated based on the samples. Noise is then estimated based on the estimated total received energy and the estimated signal and interference energy. For a third scheme, signal and on-time interference statistics are estimated based on the samples. Noise and multipath interference statistics are also estimated based on the samples. Signal, noise and interference statistics are then estimated based on the estimated signal and on-time interference statistics and the estimated noise and multipath interference statistics. | 2013-01-03 |
| 20130003817 | METHODS AND SYSTEMS FOR OPTIMAL ZERO-FORCING AND MMSE FREQUENCY DOMAIN EQUALIZERS FOR COMPLEX AND VSB SIGNALS - An improved receiver apparatus and algorithm for equalizing signals in a receiver device may equalize a block of data generated from N data symbols in a single carrier communication system. A first algorithm may be applied to a plurality of signal samples to generate a frequency domain representation of the samples. A channel estimate may be generated and a frequency response of a zero-forcing or a minimum-mean-square equalizer is applied. A conjugate of the computed frequency response is multiplied with a frequency domain representation for each sample to generate a product value. N-aliased frequency domain values from the generated product value may be determined for each of the samples. A second algorithm is applied to the generated N-aliased frequency domain values to generate estimates of the transmitted time domain data symbols. | 2013-01-03 |
| 20130003818 | TRANSMITTING DEVICE, RECEIVING DEVICE AND COMMUNICATION METHOD FOR AN OFDM COMMUNICATION SYSTEM WITH NEW PREAMBLE STRUCTURE - A transmitting device, a receiving device, and a communication method for transmitting and receiving data modulated on frequency subcarriers of an OFDM communication system. An OFDM burst includes a preamble part and payload data part, whereby the preamble includes a section of pilot symbols mapped onto every n-th frequency subcarrier and signaling data mapped onto the frequency subcarriers between the frequency subcarriers with the pilot symbols. A first channel estimation on the basis of the received pilot symbols is performed, the result of which is used to reconstruct the entire section of the received preamble as a training pattern for an accurate channel estimation, which is used for a channel equalization of the received payload part. | 2013-01-03 |
| 20130003819 | OFDM SIGNAL TRANSMISSION METHOD, TRANSMISSION APPARATUS, AND RECEPTION APPARATUS - A transmission method of a digital broadcast, which is compatible with a DVB-T terrestrial digital broadcast system in Europe, saves a battery in a mobile terminal. Superframes in DVB-T are divided into units each including plural symbols so that an integer number of TS packets can be carried in each slot. At least one slot is used to transmit one service. Energy dispersion, Reed-Solomon coding, byte interleaving, convolutional coding, and time interleaving are applied to each service. When services for mobile terminal reception and services for fixed terminals are transmitted as the provided services, null packets may be transmitted before and after the slot carrying the mobile receiver service so that the fixed reception service and the mobile reception services are not mixed. | 2013-01-03 |
| 20130003820 | WIRELESS TELEMETRY USING VOLTAGE AND PULSE INTERVALS - According to techniques of this disclosure in various examples, a wireless signaling system may include a stationary element such as a stator and a non-stationary element such as a rotor. The stationary element includes a stationary element controller. The stationary element is configured to transmit a wireless signal comprising a pair of pulses. The non-stationary element comprising a non-stationary element controller. The non-stationary element is configured to receive the wireless signal from the stationary element controller, measure a transition in voltage of each of the pulses and a time interval between the pulses, and interpret a signal based on the transition in voltage of each of the pulses and the time interval between the pulses. | 2013-01-03 |
| 20130003821 | SIGNALING SYNTAX ELEMENTS FOR TRANSFORM COEFFICIENTS FOR SUB-SETS OF A LEAF-LEVEL CODING UNIT - This disclosure describes techniques for coding transform coefficients for a block of video data. According to these techniques, a video encoder divides a leaf-level unit of video data into a plurality of transform coefficient sub-sets. The video encoder generates, for a sub-set of the plurality of transform coefficient sub-sets, a syntax element that indicates whether or not the sub-set includes any non-zero coefficients. In some examples, the video encoder may selectively determine whether to generate the syntax element for each sub-set. A decoder may read an entropy encoded bit stream that includes the syntax element, and determine whether to decode the sub-set based on the syntax element. | 2013-01-03 |
| 20130003822 | METHOD FOR EFFECTIVELY IMPLEMENTING A MULTI-ROOM TELEVISION SYSTEM - A method for effectively implementing a multi-room television system includes a digital base station that processes and combines various program sources to produce a processed stream. A communications processor then responsively transmits the processed stream as a local composite output stream to various wired and wireless display devices for flexible viewing at variable remote locations. The transmission path performance is used to determine the video encoding process, and special attention is taken to assure that all users have low-latency interactive capabilities. | 2013-01-03 |
| 20130003823 | SYSTEM FOR INITIALIZING AN ARITHMETIC CODER - Decoding a slice using a context based adaptively binary arithmetic coding, based upon a pair of variables n and m, corresponding to a probability state index and the value of the most probable symbol. | 2013-01-03 |
| 20130003824 | APPLYING NON-SQUARE TRANSFORMS TO VIDEO DATA - In one example, a device for coding video data includes a video coder, such as a video encoder or a video decoder, that is configured to code information indicative of whether a transform unit of the video data is square or non-square, and code data of the transform unit based at least in part on whether the transform unit is square or non-square. In this manner, the video coder may utilize non-square transform units. The video coder may be configured to use non-square transform units for certain situations, such as only for chrominance or luminance components or only when a corresponding prediction unit is non-square. The video coder may further be configured to perform an entropy coding process that selects context for coding data of the transform unit based on whether the transform unit is square or non-square. | 2013-01-03 |
| 20130003825 | DEVICE AND METHOD FOR EXTRACTING CORRELATION PARAMETERS BETWEEN COLOUR PLANES FOR PREDICTION, AND A RECORDING MEDIUM FOR THE SAME - The present disclosure relates to extracting correlation parameters between color planes for prediction by extracting optimum correlation parameters between the color planes using neighboring blocks when a prediction screen is generated through the use of the correlation between the color planes in video encoding. The technology includes neighboring block searching unit responsive to a second block of a reconstructed previous plane corresponding to a first block to be encoded of a current plane, for searching for a third block belonging to neighboring blocks of the second block and having smallest difference in pixel value from the second block; correlation parameter calculator for calculating correlation parameters between the third block and a fourth block reconstructed of the current plane and corresponding to the third block, based on the third block and the fourth block, and predictor for predicting the first block based on the second block and calculated correlation parameters. | 2013-01-03 |
| 20130003826 | Video Game System Using Pre-Encoded Macro-Blocks and a Reference Grid - A method and related system of generating a frame of video is disclosed. In the method, a request is received and a frame of video is generated using a plurality of pre-encoded macro-blocks. Generating the frame of video includes assigning the plurality of pre-encoded macro-blocks to respective positions in a grid. The frame of video may be compatible with an MPEG compression standard. The plurality of pre-encoded macro-blocks are pre-encoded prior to the request. | 2013-01-03 |
| 20130003827 | CONTEXT INITIALIZATION BASED ON DECODER PICTURE BUFFER - Technique for initialization of encoders and decoders. In some cases, the decoder receives a slice and identifies if the slice is either a forward predicted B-slice or a backward predicted B-slice, and not both a forward and backward predicted B-slice, and based upon this identification initializes, using a P-slice technique, a context associated with the slice. | 2013-01-03 |
| 20130003828 | Method for Selecting Transform Types From Mapping Table for Prediction Modes - A method codes pictures in a bitstream, wherein the bitstream includes coded pictures to obtain data for associated TUs and data for generating a transform tree, and a partitioning of coding units (CUs) into Prediction Units (PUs), and data for obtaining prediction modes or directions associated with each PU. One or more mapping tables are defined, wherein each row of each table has an associated index and a first set of transform types to be used for applying an inverse transformation to the data in TU. The first set of transform types is selected according to an index, and then a second set of transform types is applied as the inverse transformation to the data, wherein the second set of transform types is determined according to the first set of transform types and a transform-toggle flag (ttf) to obtain a reconstructed prediction residual. | 2013-01-03 |
| 20130003829 | SYSTEM FOR INITIALIZING AN ARITHMETIC CODER - Decoding an entropy slice using a context based adaptively binary arithmetic coding, based upon a pair of variables n and m, corresponding to a probability state index and the value of the most probable symbol. | 2013-01-03 |
| 20130003830 | CONTEXT INITIALIZATION BASED ON DECODER PICTURE BUFFER - Technique for initialization of encoders and decoders. In some cases, the decoder receives a slice and identifies if the slice is either a forward predicted B-slice or a backward predicted B-slice, and not both a forward and backward predicted B-slice, and based upon this identification initializes, using a P-slice technique, a context associated with the slice. | 2013-01-03 |
| 20130003831 | RECEIVING APPARATUS, RECEIVING METHOD, AND PROGRAM - A receiving apparatus includes a receiving unit, a buffer, an I picture detection unit, and a decoding control unit. The receiving unit is configured to receive a digital broadcasting signal including AV streams of a plurality of channels. The buffer is configured to store video stream signals acquired from the received digital broadcasting signal. The I picture detection unit is configured to detect I pictures contained in the stored video stream signals. The decoding control unit is configured to control decoding of the video stream signals in such a manner as to be successively performed in an order of time positions from the video stream signal containing the I picture located in a front position as a relative time position among the I pictures detected for the respective channels. | 2013-01-03 |
| 20130003832 | Simplified Bilateral Intra Smoothing Filter - A method comprising receiving a plurality of reference pixels, computing a plurality of filter coefficients based on differences between a reference pixel and neighboring reference pixels in the plurality of reference pixels, and combining the filter coefficients with the reference pixel and the neighboring reference pixels to generate a filtered value, wherein the filtered value is used for intra prediction. | 2013-01-03 |
| 20130003833 | Scalable Video Coding Techniques - The disclosed subject matter provides techniques for inter-layer prediction using difference mode or pixel mode. In difference mode, inter-layer prediction is used to predict at least one sample of an enhancement layer from at least one (upsampled) sample of a reconstructed base layer picture. In pixel mode, no reconstructed base layer samples are used for reconstruction of the enhancement layer sample, A flag that can be part of a coding unit header in the enhancement layer can be used to distinguish between pixel mode and difference mode. | 2013-01-03 |
| 20130003834 | DERIVATION OF THE POSITION IN SCAN ORDER OF THE LAST SIGNIFICANT TRANSFORM COEFFICIENT IN VIDEO CODING - A video decoder converts a block-based LSC indicator into a scan-based LSC indicator. The block-based LSC indicator indicates coordinates of a last significant coefficient of a block of transform coefficients according to a scanning order. The scan-based LSC indicator indicates an ordinal position of the LSC according to the scanning order. The video decoder may decode, based on the scan-based LSC indicator, a significance map for the block. | 2013-01-03 |
| 20130003835 | CODING OF LAST SIGNIFICANT TRANSFORM COEFFICIENT - A video encoder determines that the last significant coefficient (LSC) of a transform coefficient block occurs at a given ordinal position according to a coding scanning order. The video encoder generates a coordinate indicator that specifies the coordinates of a given transform coefficient in the transform coefficient block. The given transform coefficient occurs at the same ordinal position according to an assumed scanning order. A video decoder receives the coordinate indicator and converts the coordinate indicator into a scan-based LSC indicator. The scan-based LSC indicator indicates the ordinal position of the LSC. | 2013-01-03 |
| 20130003836 | IMAGE DECODING METHOD, IMAGE CODING METHOD, IMAGE DECODING APPARATUS, IMAGE CODING APPARATUS, AND IMAGE CODING AND DECODING APPARATUS - The image decoding method includes: determining a context for use in a current block to be processed, from among a plurality of contexts; and performing arithmetic decoding on a bit sequence corresponding to the current block, using the determined context, wherein in the determining: the context is determined under a condition that control parameters of neighboring blocks of the current block are used, when the signal type is a first type, the neighboring blocks being a left block and an upper block of the current block; and the context is determined under a condition that the control parameter of the upper block is not used, when the signal type is a second type, and the second type is “intra_chroma_pred_mode”. | 2013-01-03 |
| 20130003837 | METHODS AND SYSTEM FOR USING A SCAN CODING PATTERN DURING INTRA CODING - A method for processing a block of transform coefficients during intra coding includes receiving an N×M block of transform coefficients, wherein N is a row width of the block and M is a column height of the block. A first scan coding pattern is determined from a set of scan coding patterns comprising a diagonal scan coding pattern, a horizontal scan coding pattern, and a vertical scan coding pattern. The method further includes partitioning the N×M block into a plurality of sub-blocks each comprising a plurality of the transform coefficients; and processing the plurality of sub-blocks, one at a time, in a coding order along the first scan coding pattern to generate a bit sequence. The processing further comprises, for the sub-blocks containing at least one non-zero transform coefficient, coding at least the non-zero transform coefficients in a transform coefficient sequence along a second scan coding pattern. | 2013-01-03 |
| 20130003838 | Lossless Coding and Associated Signaling Methods for Compound Video - An apparatus used in video encoding comprising a processor configured to receive a video frame, select at least one region in the video frame, bypass a quantization step in encoding of the at least one region, for a current block in the at least one region generate a prediction block, subtract the current block by the prediction block to generate a residual block, and selectively bypass a transform step in encoding of the residual block. | 2013-01-03 |
| 20130003839 | Fast Encoding Method for Lossless Coding - An apparatus comprising a processor configured to receive a current block of a video frame, and determine a coding mode for the current block based on only a bit rate cost function, wherein the coding mode is selected from a plurality of available coding modes, and wherein calculation of the bit rate cost function does not consider distortion of the current block. | 2013-01-03 |
| 20130003840 | Encoding of Prediction Residuals for Lossless Video Coding - An apparatus used in video encoding comprising a processor configured to generate a prediction block for a current block, compute a difference between the current block and the prediction block to generate a residual block, wherein the residual block comprises a plurality of residual values, and if the plurality of residual values include at least one non-zero residual value comprising at least one sign and at least one residual level, perform entropy encoding on the at least one sign; and perform entropy encoding on the at least one residual level, wherein one non-residual value comprises one sign and one residual level. | 2013-01-03 |
| 20130003841 | JOINT SUB-PIXEL INTERPOLATION FILTER FOR TEMPORAL PREDICTION - A method determines a plurality of interpolation filters for use in interpolating sub-pel values for a temporal prediction process of video content. The plurality of interpolation filters are designed based on sub-pel offsets for two reference blocks. The method determines a first sub-pel offset for a first reference block for the unit of video content and determines a second sub-pel offset for a second reference block for a unit of video content. A set of interpolation filters is determined to interpolate a set of sub-pel pixel values for use in the temporal prediction process for the unit of video content. The set of interpolation filters is designed for the first sub-pel offset and the second sub-pel offset and is used to interpolate a first sub-pel pixel value for the first reference block and a second sub-pel value for the second reference block. | 2013-01-03 |
| 20130003842 | APPARATUS AND METHOD FOR IMAGE PROCESSING, AND PROGRAM - The present invention relates to apparatuses and methods for image processing by which improvement in prediction accuracy for B pictures, especially in the vicinity of edges of screens, is achievable, and programs therefor. A motion compensator is adapted to generate a prediction image by weighted prediction according to H.264/AVC standard by using the on-screen portion of a reference region in an L0 reference picture and to generate a prediction image by not using the off-screen portion of the reference region in the L0 reference picture and by restrictively using a reference region in an L1 reference picture. Specifically, in the L0 reference picture, as depicted in the reference region for L0 reference, the reference region is the dashed square on the outer side, but in actuality, the region within the dashed square on the inner side is restrictively used for prediction. The present invention is applicable to an image coding apparatus for performing encoding based on, for example, H.264/AVC standard. | 2013-01-03 |
| 20130003843 | Motion Prediction Method - The invention provides a motion prediction method First, a coding unit (CU) of a current picture is processed, wherein the CU comprises at least a first prediction unit (PU) and a second PU. A second candidate set comprising a plurality of motion parameter candidates for the second PU is then determined, wherein at least a motion parameter candidate in the second candidate set is derive from a motion parameter predictor for a previously coded PU of the current picture, and the second candidate set is different from a first candidate set comprising a plurality of motion parameter candidates for the first PU. A motion parameter candidate is then selected from the second candidate set as a motion parameter predictor for the second PU. Finally, predicted samples are then generated from the motion parameter predictor of the second PU partition. | 2013-01-03 |
| 20130003844 | Video encoder bit estimator for macroblock encoding - A video transmission system includes an encoder to receive video images, and encode them for transfer to a decoder. The video images include macroblocks having data that are encoded according to a prediction mode, such as inter-prediction or intra-prediction. A bit estimator for the encoded macroblock within the encoder estimates a size for the encoded macroblock and predicts whether it will be an illegal size. The bit estimator applies a bit estimation function using a number of header bits and a number of texture bits based on the prediction mode and transformed data of the macroblock. | 2013-01-03 |
| 20130003845 | ADAPTIVE CONFIGURATION OF REFERENCE FRAME BUFFER BASED ON CAMERA AND BACKGROUND MOTION - In a video coding/decoding system, reference picture caches in a video coder and decoder may be partitioned dynamically based on camera and background motion can lead to improved coding efficiency and coding quality. When a camera is fixed and therefore exhibits low motion, a system may allocate larger portions of the reference picture cache to storage of long term reference frames. In this case, foreground elements of an image (for example, a person) may move in front of a relatively fixed background. Increasing the number of long term reference frames can increase the chances that, no matter where the foreground elements are within a frame currently being coded, the reference picture cache will contain at least one frame that provides an adequate prediction match to background elements within the new frame. Thus the background elements uncovered in the current frame can be coded at high quality with a low number of bits. When a camera exhibits high motion, the system may allocate larger portions of the reference picture cache to storage of short term reference frames. | 2013-01-03 |
| 20130003846 | FRAME ENCODING SELECTION BASED ON FRAME SIMILARITIES AND VISUAL QUALITY AND INTERESTS - A system an method for determining to select frames from a video sequence that have high visual appeal and can be coded at high quality when frame rates of coded video drop to such low levels that perceptual sensations of moving video are lost. A metric is derived from a candidate input frame, and such metric is used to determine whether to increase or decrease a weight accorded to the candidate input frame. In an embodiment, the metric may be the auto- exposure data associated with the candidate input frame. | 2013-01-03 |
| 20130003847 | Motion Prediction in Scalable Video Coding - Disclosed are techniques for prediction of a to-be-reconstructed prediction unit of an enhancement layer using motion vector information of the base layer. A video encoder or decoder includes an enhancement layer coding loop with a predictor list insertion module. The predictor list insertion module can generate a list of motion vector predictors, or modify an existing list of motion vector predictors, such that the list includes at least one predictor that is derived from side information generated by a base layer coding loop, and has been upscaled. | 2013-01-03 |
| 20130003848 | IMAGE CODING METHOD, IMAGE DECODING METHOD, IMAGE CODING APPARATUS, IMAGE DECODING APPARATUS, AND IMAGE CODING AND DECODING APPARATUS - An image coding method includes: (i) determining, for each of one or more associated blocks, whether to add a motion vector of the associated block to a list, and (ii) adding the motion vector of the associated block to the list when determining that the motion vector of the associated block is to be added to the list; selecting a motion vector from the list as a motion vector predictor; and (i) coding a current block using a motion vector of the current block, and (ii) coding a difference between the motion vector of the current block and the motion vector predictor, and in the determining, it is determined that the motion vector of the associated block is not to be added to the list when an associated picture and an associated reference picture match temporally or when a current picture and a current reference picture match temporally. | 2013-01-03 |
| 20130003849 | VIDEO CODING USING ADAPTIVE MOTION VECTOR RESOLUTION - In one example, a device for coding video data includes a video coder configured to configured to code information representative of whether an absolute value of an x-component of a motion vector difference value for a current block of video data is greater than zero, code information representative of whether an absolute value of a y-component of the motion vector difference value is greater than zero, when the absolute value of the x-component is greater than zero, code information representative of the absolute value of the x-component, when the absolute value of the y-component is greater than zero, code information representative of the absolute value of the y-component, when the absolute value of the x-component is greater than zero, code a sign of the x-component, and when the absolute value of the y-component is greater than zero, code a sign of the y-component. | 2013-01-03 |
| 20130003850 | IMAGE DECODING METHOD, IMAGE CODING METHOD, IMAGE DECODING APPARATUS, IMAGE CODING APPARATUS, AND IMAGE CODING AND DECODING APPARATUS - An image decoding method for decoding, on a block-by-block basis, image data included in a coded bitstream includes: obtaining a fixed number of merging candidates each of which is a candidate set of a prediction direction, a motion vector, and a reference picture index which are to be referenced in decoding of a current block (S | 2013-01-03 |
| 20130003851 | MOTION VECTOR PREDICTION DESIGN SIMPLIFICATION - In one embodiment, a method receives a unit of video content. The unit of video content is coded in a bi-prediction mode. A motion vector predictor candidate set is determined for a first motion vector for the unit. The method then determines a first motion vector predictor from the motion vector prediction candidate set for the first motion vector and calculates a second motion vector predictor for a second motion vector for the unit of video content. The second motion vector predictor is calculated based on the first motion vector or the first motion vector predictor. | 2013-01-03 |
| 20130003852 | IMAGE ENCODING DEVICE AND IMAGE DECODING DEVICE - An image encoding device includes a first prediction parameter determination section ( | 2013-01-03 |
| 20130003853 | MOTION VECTOR DETECTION APPARATUS, MOTION VECTOR DETECTION METHOD, IMAGE ENCODING APPARATUS, IMAGE ENCODING METHOD, AND COMPUTER PROGRAM - An apparatus detects a motion vector using image data to be encoded, and a plurality of reference image data. The apparatus conducts a motion vector search for first reference image data using a large block obtained by dividing the image data to be encoded, and divides the large block into a smaller block size at the position of a smallest matching error. The apparatus determines a block size used in a motion vector search for another reference data based on matching errors in the small blocks. | 2013-01-03 |
| 20130003854 | METHOD, APPARATUS AND PROGRAM FOR EFFICIENT GENERATION OF PREDICTION SIGNALS - A block divider divides an input image into a plurality of regions. A prediction signal generator generates a prediction signal for the pixel signal contained in an object region, which is the object of processing, among the plurality of regions, and generates a prediction signal by using a texture synthesis method for forming a texture signal for the object region. A subtracter determines a residual signal between the pixel signal of the object region and the prediction signal, and a transformer and a quantizer encode the residual signal to generate a compressed signal. | 2013-01-03 |
| 20130003855 | PROCESSING METHOD AND DEVICE FOR VIDEO SIGNALS - Disclosed are a method and device for encoding or decoding video signals. The video signal processing method according to the present invention can enhance processing efficiency by using a structure whereby a single unit is recursively divided into a plurality of units. A method is provided in which bits can be used efficiency by hierarchically employing coding block pattern information under a unit structure able to be divided in this way. Further, residual data is rearranged so as to allow efficient coding by employing spatial distribution of the residual data. | 2013-01-03 |
| 20130003856 | MODE-DEPENDENT TRANSFORMS FOR RESIDUAL CODING WITH LOW LATENCY - An apparatus and method for processing video data are provided. The method includes determining a primary transform C | 2013-01-03 |
| 20130003857 | METHODS AND SYSTEM FOR USING A SCAN CODING PATTERN DURING INTER CODING - A method for processing a block of transform coefficients during inter coding includes receiving, during inter coding, an N×M block of transform coefficients, wherein N is a row width of the block and M is a column height of the block. The method further includes partitioning the N×M block into a plurality of sub-blocks each comprising a plurality of the transform coefficients; and processing the plurality of sub-blocks, one at a time, in a coding order along a first diagonal scan coding pattern to generate a bit sequence corresponding to the N×M block. The processing comprises, for the sub-blocks containing at least one non-zero transform coefficient, coding at least the non-zero transform coefficients in a transform coefficient sequence along a second diagonal scan coding pattern. | 2013-01-03 |
| 20130003858 | Simplified Context Selection For Entropy Coding of Transform Coefficient Syntax Elements - A method for entropy encoding syntax elements of transform coefficient levels in a video encoder to generate a compressed video bit stream is provided that includes selecting a context for a first significant coefficient flag corresponding to a first transform coefficient level in a 32×32 transform block, wherein the first transform coefficient level is at a lowest frequency position in the 32×32 transform block, entropy encoding the first significant coefficient flag using the context, selecting the context for a second significant coefficient flag corresponding to a second transform coefficient level in a 16×16 transform block, wherein the second transform coefficient level is at a lowest frequency position in the 16×16 transform block, and entropy encoding the second significant coefficient flag using the context. | 2013-01-03 |
| 20130003859 | TRANSITION BETWEEN RUN AND LEVEL CODING MODES - This disclosure describes techniques for coding transform coefficients for a block of video data. According to some aspects of this disclosure, a video coder (e.g., encoder, decoder) may code a first coefficient of a leaf-level unit of video data using a run encoding mode. The coder may code a second coefficient of the leaf-level unit of video data using a level encoding mode. After coding at least one coefficient using the level coding mode, the coder may use the run coding mode to code a third other coefficient of the leaf-level unit of video data. According to other aspects, an encoder may signal, to a decoder, at least one indication of a transition between level and run coding modes. According to still other aspects, a coder may automatically determine when to transition between the level and run coding modes. | 2013-01-03 |
| 20130003860 | IMAGE DECODING METHOD, IMAGE CODING METHOD, IMAGE DECODING APPARATUS, IMAGE CODING APPARATUS, AND IMAGE CODING AND DECODING APPARATUS - The image decoding method includes: determining a context for use in a current block to be processed, from among a plurality of contexts; and performing arithmetic decoding on a bit sequence corresponding to the current block, using the determined context, wherein in the determining: the context is determined under a condition that control parameters of neighboring blocks of the current block are used, when the signal type is a first type, the neighboring blocks being a left block and an upper block of the current block; and the context is determined under a condition that the control parameter of the upper block is not used, when the signal type is a second type, and the second type is “no_residual_data_flag”. | 2013-01-03 |
| 20130003861 | IMAGE DECODING METHOD, IMAGE CODING METHOD, IMAGE DECODING APPARATUS, IMAGE CODING APPARATUS, AND IMAGE CODING AND DECODING APPARATUS - The image decoding method includes: determining a context for use in a current block to be processed, from among a plurality of contexts; and performing arithmetic decoding on a bit sequence corresponding to the current block, using the determined context, wherein in the determining: the context is determined under a condition that control parameters of neighboring blocks of the current block are used, when the signal type is a first type, the neighboring blocks being a left block and an upper block of the current block; and the context is determined under a condition that the control parameter of the upper block is not used, when the signal type is a second type, and the second type is one of “cbf_luma”, “cbf_cb”, and “cbf_cr”. | 2013-01-03 |
| 20130003862 | Method and Apparatus for Manipulating MPEG Video - A computer implemented method of manipulating and displaying an MPEG stream is described. In one embodiment of the invention, a computer implemented method comprises defining a spatial location across a series of pictures of an MPEG stream; and for each picture of the series of pictures in the MPEG stream, partially decoding the picture to determine an area of the picture falling within the spatial location. | 2013-01-03 |
| 20130003863 | NETWORK MEDIA ADAPTER - A network media adapter includes peripheral interfaces for connection to connectors of audio/video (“A/V”) sources and sinks to respectively receive media data from the A/V sources and to transmit media data to the A/V sinks. Components are configured to syntonize or synchronize local media clocks of the A/V sources and sinks to ensure media data integrity affiliated with a protocol of a media network over which the media data is transported. A quality of service (QoS)-compliant media interface is integrated in the network media adapter through which to send and receive processed A/V media data to and from the media network according to the protocol. Other components may be configured to process, encapsulate, and transport over the media network the media data received from the A/V sources. Still other components may be configured to receive media data from the media network and decapsulate, process, and transmit the media data through one or more peripheral interfaces connected to the A/V sinks. | 2013-01-03 |
| 20130003864 | REDUCING LATENCY IN VIDEO ENCODING AND DECODING - Techniques and tools for reducing latency in video encoding and decoding by constraining latency due to reordering of video frames, and by indicating the constraint on frame reordering latency with one or more syntax elements that accompany encoded data for the video frames. For example, a real-time communication tool with a video encoder sets a syntax element that indicates a constraint on frame reordering latency, which is consistent with inter-frame dependencies between multiple frames of a video sequence, then outputs the syntax element. A corresponding real-time communication tool with a video decoder receives the syntax element that indicates the constraint on frame reordering latency, determines the constraint on frame reordering latency based on the syntax element, and uses the constraint on frame reordering latency to determine when a reconstructed frame is ready for output (in terms of output order). | 2013-01-03 |
| 20130003865 | DEBLOCKING FILTERING - Blocking artifacts at a block boundary ( | 2013-01-03 |
| 20130003866 | WIRELESS RECEIVER - A wireless receiver including receiving antennas, frequency-space transformers, noise wave removers, a back-end signal processor, a pattern detector, a broadcast interruption detector, and a back-end controller. The frequency-space transformers convert signals received by the antennas into frequency-space signals. The noise wave removers each at least perform the calculation of a transmission line coefficient matrix and the calculation of an inter-antenna covariance matrix on the frequency-space signals. A controller controls the back-end signal processor to operate when the multicarrier transmission waves have been detected to be interrupted. The noise wave removers each perform the calculation of the inter-antenna covariance matrix when a broadcast interruption detector has detected the interruption of the multicarrier airwaves. Thus, the wireless receiver removes noise generated within it, thereby having high reception sensitivity. | 2013-01-03 |
| 20130003867 | VIDEO DISPLAY DEVICE - A decode timing generation unit is configured so that when there is a change in the video data input at the input terminal, by moving the reference time into the future, it generates a decode timing signal immediately after the first acquisition of the DTS of a decodable frame following the change. The decode timing generation unit is configured so that the decode timing signal is generated when only a portion of the decodable frame is acquired, before the entirety of the decodable frame is acquired. In addition, the display timing generation unit is configured so that when there is a change in the video data input at the input terminal, by moving the reference time into the future, it generates a display timing immediately after the first acquisition of the PTS of a decodable frame after the change. | 2013-01-03 |
| 20130003868 | PICTURE CODING AND DECODING - A picture ( | 2013-01-03 |
| 20130003869 | FRAME IDENTIFICATION - An unbound, out-of-band identification concept for identifying video frames and/or other data sets within a transport stream. The identification may include the use of reference markers to identify the video frames independently of a transmission protocol used to facilitate the transport stream. This type of ubiquitous generation of reference markings may allow the reference markers to be easily propagated and used with disparate transmission protocols and transport streams. | 2013-01-03 |
| 20130003870 | APPARATUS AND METHOD FOR VIDEO DATA PROCESSING - Methods and apparatus for accelerating the processing of image data are disclosed that are particularly useful in conducting graphical pattern searches. Embodiments of the invention conduct and implement comparative calculations of reference and search image pel data on a multi-pel comparative basis, particularly, sum of the absolute differences (SAD) based calculation comparisons. | 2013-01-03 |
| 20130003871 | VIDEO COMPRESSION USING AN ADAPTIVE LOOP FILTER - A method including: obtaining video information at a video decoder apparatus, the video information including largest coding units of video data and filtering information, each of the largest coding units having a common size; obtaining, at the video decoder apparatus, an adaptive loop filter on/off indicator for each of the largest coding units, wherein each of the largest coding units includes a respective adaptive loop filter on/off indicator; and performing, by the video decoder apparatus, adaptive loop filtering to the largest coding units if the respective adaptive on/off indicators are on. | 2013-01-03 |
| 20130003872 | METHOD, SYSTEM AND DEVICE FOR IMPROVING VIDEO QUALITY THROUGH IN-LOOP TEMPORAL PRE-FILTERING - A method, system and device are provided for pre-filtering device for filtering a video signal prior to digitally encoding. The method includes receiving at least one input picture and at least one reconstructed picture from an encoding process and performing an in-loop temporal filtering process using at least one input picture and at least one reconstructed picture from an encoding process to output a pre-filtered video signal for use in an encoding process. The result is enabling an encoding process to produce an output with increased temporal correlation between adjacent pictures regardless of the coding type, since the artifacts introduced by the encoding process are also considered by the process. | 2013-01-03 |
| 20130003873 | ANALOG TO DIGITAL CONVERTER WITH INCREASED SUB-RANGE RESOLUTION - An analog to digital converter with increased sub-range resolution and method for using the analog to digital converter is described herein. The device includes an analog front end that produces an analog communication signal, a digital front end that receives a digital communication signal, and an Analog to Digital Converter (ADC) that samples the analog communication signal across a full-range. The ADC includes a plurality of sub-range ADCs, each sub-range ADC measuring the analog communication signal across at least one respective sub-range of the full-range, the plurality of sub-ranges extending across the full-range, a central sub-range ADC having greater quantization accuracy than at least one other sub-range ADC. The ADC also includes signal combining circuitry operable to process outputs of the plurality of sub-range ADCs to create the digital communication signal. | 2013-01-03 |
| 20130003874 | POWERLINE COMMUNICATION DEVICE - A Powerline Communications (PLC) device includes a processing module, memory coupled to the processing module, and a PLC interface coupled to the processing module. The PLC device transmits a plurality of PLC queries, two of the plurality of PLC queries complying with differing and incompatible PLC communication standards. It then receives a plurality of responses from a plurality of other PLC devices, two responses received from respective PLC devices complying with two differing and incompatible PLC communication standards. The PLC device then directs each of the two PLC devices to transmit communications of the differing and incompatible PLC communication standards in an attempt to avoid PLC communication conflicts. The PLC device may establish non-PLC communications with a remote communications device. The PLC device may bridge communications between remote PLC devices and between a remote PLC device and a remote non-PLC device. | 2013-01-03 |
| 20130003875 | POWERLINE COMMUNICATION DEVICE WITH MULTIPLE PLC INTERFACE(S) - A Power Line Communications (PLC) device includes a processing module, memory, a first PLC interface, and a second PLC interface. The PLC device determines that the PLC device will service communications with a first remote PLC device according to a first PLC communication standard and configures the first PLC interface to service communications to support the first PLC communication standard. The PLC device also determines that the PLC device will service communications with a second remote PLC device according to a second PLC communication standard and configures the second PLC interface to service communications to support the second PLC communication standard. The PLC device may service communications via the first and second PLC devices concurrently when the first and second PLC communication standards are not conflicting. The PLC device may transmit communications via the first PLC interface and receive ACKs via the second PLC interface. | 2013-01-03 |
| 20130003876 | BREAKER BOX POWERLINE COMMUNICATION DEVICE - A Power Line Communications (PLC) device includes a processing module, memory, and a plurality of PLC communication interfaces coupled to the processing module. Each PLC communication interface couples to a respective PLC media segment. The processing module, the plurality of PLC communication interfaces, and the memory are operable to receive a PLC communication from a first PLC device via a first PLC communication interface of the plurality of communication interfaces, process the PLC communication to identify a second PLC device, and transmit the PLC communication to the second PLC device via a second PLC communication interface of the plurality of communication interfaces. The PLC device may include one or more non-PLC interfaces that support non-PLC communications. | 2013-01-03 |
| 20130003877 | PLC Device Supporting MIMO Operations - A communications device includes a PLC interface operable to couple at least two differing communication signals to at least two differing pairs of at least three conductors of a powerline medium. A processing module of the device and the PLC interface interact with a remote PLC device to determine connectivity of the remote PLC device to the PLC device via the at least three conductors of the powerline medium, select at least two conductor pairs of the powerline medium that communicatively couple the PLC device to the remote PLC device for Multiple Input Multiple Output (MIMO) signal servicing, and simultaneously transmit MIMO PLC signals to the remote PLC device via the at least two conductor pairs. The communications device may also include a non-PLC interface, with the communications device operable to divide MIMO communications between a powerline medium and a non-PLC medium, e.g., coaxial cable, cat-5 cable. | 2013-01-03 |
| 20130003878 | POWERLINE COMMUNICATION DEVICE WITH LOAD CHARACTERIZATION FUNCTIONALITY - A method for operating a Power Line Communications (PLC) device includes identifying at least one proximately located load device using the wireless interface, determining device characteristics of the at least one proximately located load device using the wireless interface, communicating with a remote PLC device via the PLC interface, and transmitting to the remote PLC device via the PLC interface the device characteristics of the at least one proximately located load device. Operation may further include establishing wireless communications with the at least one proximately located device, querying the at least one proximately located device wirelessly, and receiving the device characteristics wirelessly. Other operations include creating a diagrammatic representation of a premises representing a plurality of areas and passages between the plurality of areas and including wireless reception quality for each of the plurality of spaces. | 2013-01-03 |
| 20130003879 | POWERLINE COMMUNICATION DEVICE NOISE TIMING BASED OPERATIONS - A Power Line Communications (PLC) device includes a processing module, memory, and a communication interface. The PLC device determines, at a PLC Physical Layer (PHY), a noise cycle of a power main coupled to the PLC interface. Based upon the noise cycle, the PLC device determines a higher noise period and a lower noise period of the noise cycle and then allocates, by a PLC Media Access Control (MAC) layer, first communication operations in the higher noise period and differing second communication operations in the lower noise period. Such operations may include adjusting framing of PLC MAC layer frames to have a first frame construct during the higher noise period and second frame construct during the lower noise period. Other differences in operations may be coding operations, either block or channel codes, QoS operations, restricting communications, redundant Acknowledgement (ACK) operations, or differing PLC standardized operations during the differing periods. | 2013-01-03 |
| 20130003880 | Estimation of Frequency Offset Between a Base Station and Mobile Terminal - A method and apparatus for frequency offset estimation exploits the differences in reference symbol timing for different channels to resolve ambiguities in the frequency offset estimation. Based on the initial frequency offset estimates, a hypothesis table is constructed providing hypothesized frequency offsets for each channel for a plurality of possible offset regions. An error metric for each offset region is calculated based on the difference of the hypothesized frequency offsets. The set of hypothesized frequency offsets that minimize the error metric is selected as the final frequency offset estimates. | 2013-01-03 |
| 20130003881 | Radio Frequency Modulators - A radio frequency modulator is disclosed that includes a finite impulse response filter including a first modulator element having a first gain and configured to receive a first input signal and produce a first output signal, a second modulator element having a second gain and configured to receive a second input signal delayed with respect to the first input signal and produce a second output signal, a third modulator element having a third gain and configured to receive a third input signal delayed with respect to the second input signal and produce a third output signal, and a fourth modulator element having a fourth gain and configured to receive a fourth input signal delayed with respect to the third input signal and produce a fourth output signal. The first, second, third, and fourth gains are each different and are based on coefficients of the finite impulse response filter. | 2013-01-03 |
| 20130003882 | PRE-EMPHASIS CIRCUIT - An embodiment of a pre-emphasis circuit, an embodiment of a method for pre-emphasizing complementary single-ended signals, an embodiment of a transmitter, and an embodiment of a communication system. | 2013-01-03 |
| 20130003883 | BROADBAND WIRELESS COMMUNICATION RESOURCE ASSIGNING METHOD, BASE STATION APPARATUS AND TERMINAL APPARATUS - A method of wireless communication for communication between a base station and a plurality of terminal apparatuses, the method including: dividing an available frequency into a plurality of segments and notifying control information to the terminal apparatus, the control information including setting of a segment of the plurality of segments, communication quality of which will be fed back by the terminal apparatus, and cancellation of a segment of the plurality of segments, communication quality of which has already been fed back from the terminal apparatus; and feeding back communication quality related to a predetermined segment to the base station in accordance with the control information by the terminal apparatus. | 2013-01-03 |
| 20130003884 | METHOD FOR TRANSMITTING A SOURCE SIGNAL, METHOD FOR RECEIVING A TRANSMITTED SIGNAL, CORRESPONDING TRANSMITTER, RECEIVER, SIGNAL AND COMPUTER PROGRAMS - A method and apparatus are provided for transmitting a source signal including a plurality of binary sequences to NR receiving antennas, where NR is no lower than 2. The method implements, for at least one first binary sequence of the source signal, pre-filtering for focusing a signal to be transmitted on at least one of the reception antennas, referred to as the target antenna. The target antenna and the associated focus pre-filtering step are selected according to a value of the first binary sequence intended for being considered as received. The method also includes transmitting the pre-filtered signal. | 2013-01-03 |
| 20130003885 | Space-Time Block Coding Systems and Methods - Although orthonormal space-time coding matrices provide for optimal communication system performance in that associated correlation matrices include no non-zero off-diagonal elements, unity code rate orthonormal coding matrices are difficult to identify for arbitrary communication network equipment. According to embodiments of the present invention, non-orthonormal space-time coding matrices, for which associated correlation matrices include non-zero off-diagonal elements, are used to encode data symbols. The non-orthonormal space-time coding matrices are more easily determined, and undesirable effects of the non-zero off-diagonal components are reduced by selecting a coding matrix from among a number of such matrices. For example, a particular space-time coding matrix may be selected from a number of generated space-time coding matrices based on a number of non-zero off-diagonal elements or a power of a trace of the associated correlation matrices. | 2013-01-03 |
| 20130003886 | METHOD FOR GENERATING AND DETECTING PREAMBLE, AND DIGITAL COMMUNICATION SYSTEM BASED ON THE SAME - Provided is a method of generating and detecting a preamble that may significantly increase accuracy of frame synchronization while avoiding a low frequency domain having great noise power and minimizing hardware complexity and power consumption in a communication system of a digital direct transmission scheme applicable to human body communication. A method of generating a preamble according to an exemplary embodiment of the present disclosure includes: generating a first pseudo noise code and a second pseudo noise code that are different from each other; generating a plurality of same first sub preambles by line-coding the first pseudo noise code; and generating a second sub preamble behind the plurality of first sub preambles by line-coding the second pseudo noise code. | 2013-01-03 |
| 20130003887 | TRANSMISSION APPARATUS, RECEPTION APPARATUS AND DIGITAL RADIO COMMUNICATION METHOD - A transmission method includes generating first symbols for transmitting data, a signal point of each of the first symbols on an in-phase and quadrature-phase plane comprising an in-phase component and a quadrature-phase component and generating a second symbol, the second symbol being a pilot symbol. The method further includes selecting an insertion pattern of the second symbol, from a plurality of predetermined insertion patterns, inserting the second symbol in the first symbols based on the selected insertion pattern to generate a transmission signal, and transmitting the transmission signal. The first symbols are generated using a modulation scheme selected from a plurality of modulation schemes. | 2013-01-03 |
| 20130003888 | HALF OPEN-LOOP-CONTROLLED LIN TRANSMITTER - An LIN transmitter includes a current mirror coupled to a transmit output node and a control circuit coupled to a transmit input node for controlling the current mirror with various load current control signals. | 2013-01-03 |
| 20130003889 | APPARATUS FOR GENERATION OF CORRECTED VECTOR WIDEBAND RF SIGNALS - A signal generation system can include an input source configured to provide an input radio frequency (RF) signal, a correction filter calculation (CFC) block configured to determine correction filter parameters, and an automatic level control (ALC) loop configured to provide ALC loop information to the CFC block. The correction filter parameters may be determined based at least in part on the ALC information. The system can also include a predistortion field programmable gate array (FPGA) configured to apply a correction filter to the input RF signal, wherein the correction filter is based at least in part on the correction filter parameters, and an RF output configured to provide an RF output signal. | 2013-01-03 |
| 20130003890 | METHOD AND APPARATUS FOR REDUCING TRANSMITTER INTERFERENCE - A method and apparatus mitigates spurious transmissions. An offset local oscillator signal is generated that is at a frequency that is offset from a nominal transmit channel carrier frequency by a spurious mitigation offset. An information signal is generated that comprises a series of modulation symbols and has a transmission bandwidth at baseband. A configured offset information signal is generated from the information signal, wherein the spectrum of the configured offset information signal is offset from DC by a channel configuration offset, and is further offset by a negative of the spurious mitigation offset. The offset local oscillator signal and the configured offset information signal are combined using a mixing technique. The spurious mitigation offset is zero when a spurious condition does not exist and is non-zero when the spurious condition does exist. | 2013-01-03 |
| 20130003891 | SYSTEM AND METHOD FOR ESTIMATING AND CORRECTING PHASE SHIFT IN A WIRELESS COMMUNICATION DEVICE - In accordance with some embodiments of the present disclosure, a method for estimating and correcting phase shift in a wireless communication device, may include converting a digital signal output by digital circuitry of the wireless communication device into a compensated digital signal based on a calculated phase error. The method may also include converting the compensated digital signal into a wireless communication signal. The method may additionally include calculating an estimated instantaneous reference phase of the digital signal output by the digital circuitry. The method may further include calculating an estimated transmit phase of the wireless communication signal. Moreover, the method may include calculating a phase error based on a difference between the estimated instantaneous reference phase and the estimated transmit phase of the wireless communication signal. | 2013-01-03 |
| 20130003892 | NEAR FIELD COMMUNICATIONS TRANSMITTER - The present application relates to a near field communications (NFC) transmitter ( | 2013-01-03 |
| 20130003893 | Detecting the Number of Transmit Antennas in a Base Station - Data is scrambled at a transmitter according to one of a number of predetermined scrambling sequences which are associated with a particular one of a number of predetermined transmit antenna diversity schemes (i.e., a specific number of transmit antenna ports). Received data is decoded using one or more of the known transmit antenna diversity schemes and the scrambled data is descrambled according to a corresponding descrambling sequence (related to the scrambling sequence). Based on the descrambled data, the receiver determines which transmit antenna diversity scheme (i.e., the number of antenna ports) is used by the transmitter. In one specific embodiment, CRC parity data is scrambled in the transmitter and the receiver descrambles the recovered CRC parity data according to a descrambling sequence, computes CRC parity data from the received data, and compares the descrambled CRC parity data to the newly computed CRC parity data. | 2013-01-03 |
| 20130003894 | DELAY ADJUSTMENT USING SAMPLE RATE CONVERTERS - A method and apparatus for adjusting the delay of a first data stream relative to a second data stream is disclosed. An apparatus receives first and second data streams having identical content. A timing difference between the first and second data streams is estimated. At least the leading one of the data streams is applied to a sample rate converter. The sample rate converter is configured to receive a data stream at an input sampling rate and to output the data stream at an output sampling rate. Based on the estimated timing difference, delay is applied to the leading one of the data streams by changing the sampling rate of the sampling rate converter. The output sampling rate of the sampling rate converter may be adjusted until both data streams are aligned in time. | 2013-01-03 |
| 20130003895 | WIRELESS COMMUNICATIONS DEVICE HAVING MAP TRELLIS DECODER WITH PARTIAL SUM TABLES AND RELATED METHODS - A wireless communications device includes a receiver, and a decoder coupled downstream from the receiver and using a modulation having memory for a received signal and to decode the received signal. The decoder decodes the received signal by at least determining a channel estimate for the received signal, generating partial sum tables based upon the channel estimate and possible values of a transmitted signal, correlating actual values of the received signal to the possible values from the partial sum tables to generate branch metrics associated with the modulation, and demodulating the received signal based upon the branch metrics using an iterative process based upon exchanging extrinsic information with an outer forward error correction (FEC) code. | 2013-01-03 |
| 20130003896 | MULTI USER MIMO DETECTION UTILIZING AVERAGED SPATIAL WHITENING - A system and method for decoding a Multi User (MU) Multiple Input Multiple Output (MIMO) signal is disclosed. The method comprises receiving a selected symbol in a tone of an MU-MIMO signal at a mobile communication device. A channel response for the selected symbol is identified. Spatial whitening is applied to the tone and the channel response using an average of a co-user interference plus noise matrix that is averaged over a selected number of tones. Maximal ratio combining is performed for the spatially whitened tone and the spatially whitened channel response matrix to decode the selected symbol out of the spatially whitened tone. | 2013-01-03 |
| 20130003897 | METHOD AND APPARATUS FOR DEMODULATING DOWNLINK SIGNAL IN WIRELESS COMMUNICATION SYSTEM - There is provided a method and apparatus in which a user equipment demodulates a downlink signal in a wireless communication system. The user equipment receives a first orthogonal frequency division multiplexing (OFDM) signal from a first node serving the mobile station, receives a second OFDM signal from a second node different from the first node, and demodulates the first OFDM signal and the second OFDM signal in a fast Fourier transform (FFT) section. The first OFDM signal and the second OFDM signal are either normal mode signals each having a first cyclic prefix (CP) or cooperative mode signals each having a second CP, and the second CP has a longer length than the first CP. | 2013-01-03 |
| 20130003898 | Digital Broadcast Reception Processing Apparatus - A digital broadcast reception processing apparatus including: a plurality of antennas; a plurality of demodulation sections; a demodulation apportioning section configured to divide a plurality of demodulated signals into, and output the divided signals of, Process One unit and Process Two unit; a carrier-combining section configured to combine carrier in the demodulated signals of the Process One unit, and output the carrier-combined demodulated signals; a main processing section configured to process the carrier-combined demodulated signals; a sub-processing section configured to process the demodulated signal of the Process Two unit; and a sub-processing demodulation selecting section configured to control the division of the demodulation apportioning section. The sub-processing demodulation selecting section decides, and instructs the demodulation apportioning section as to, demodulated signals to be divided into the Process One unit and the Process Two unit on the basis of a plurality of signal intensities obtained from the plurality of demodulation sections. | 2013-01-03 |
| 20130003899 | Area and Power Efficient Architectures of Time Deinterleaver for Receivers - A method and apparatus for de-interleaving interleaved data in a deinterleaver memory in an Orthogonal Frequency Division Multiplexing (OFDM) based Integrated Services Digital Broadcasting Terrestrial (ISDB-T) receiver. In different embodiments, the apparatus comprises of a OFDM symbol counter along with a divider or a buffer pointer RAM with circular pointer logic, a first lookup table to obtain delay buffer size and interleaving lengths for a given OFDM transmission layer, and a second lookup table to obtain buffer base address and interleaving lengths for a given OFDM transmission layer. | 2013-01-03 |
| 20130003900 | MICRO-CONTROLLER, PROCESSING METHOD AND DEVICE FOR POWER LINE CARRIER SIGNAL RECEPTION - The present invention provides a micro-controller, a processing method and device for power line carrier signal reception, where the method includes: an analog mixer mixes received power line carrier signals, an analog filter filters the mixed power line carrier signals, an analog-to-digital converter converts the filtered signals, a digital mixer mixes converted signals, a digital filter filters the mixed signals and a digital demodulator demodulates the filtered signals to obtain base band data. The present invention also provides a corresponding device and a micro-controller including the device. The technical solution of the present invention can modulate the carrier signals of any frequency to a fixed frequency through two-stage frequency mixing, so that demodulation of power line carrier signals with any frequency is possible. | 2013-01-03 |
| 20130003901 | RECEIVING DEVICE, RECEIVING METHOD, RECEIVING PROGRAM, AND PROCESSOR - A propagation channel estimation unit estimates a propagation channel estimation value. A symbol replica generation unit generates a symbol replica that is modulated symbol of a demodulated information. A signal extraction unit extracts, in an arbitrary time duration, each subcarrier component of a received signal in which an interference signal was removed, the extraction being made based on the propagation channel estimation value and the symbol replica. A demodulator demodulates a signal of each subcarrier component in the received signal, the demodulation being made based on signal during the time duration extracted by the signal extraction unit. | 2013-01-03 |
| 20130003902 | DIGITAL BROADCAST RECEIVER - When a decision is made that receiving performance deterioration due to an interfering wave is present in a digital broadcasting wave, an operating point of an RF AGC amplifier | 2013-01-03 |
| 20130003903 | Performing Impulse Blanking Based On Blocker Information - One aspect of the present invention is directed to an apparatus to perform impulse blanking of a received signal at multiple locations of a signal processing path. To effect such impulse blanking, multiple impulse detectors and blankers may be present, in addition to other circuitry. The impulse detectors may operate at different bandwidths, and the impulse blankers may be located at different locations of the signal processing path and may be differently configured. | 2013-01-03 |
| 20130003904 | DELAY ESTIMATION BASED ON REDUCED DATA SETS - A delay estimation unit is disclosed. The delay estimation unit may receive first and second streams of data having identical content. The amount of data in the data streams is reduced by filtering (e.g., lowpass filtering) the first and second data streams to produce first and second filtered streams, respectively. The amount of data is further reduced by decimating the first and second filtered streams, discarding all but one of every N samples to produce first and second decimated data, respectively. The first and second decimated streams are received by a correlator that performs a correlation operation. The output of the correlator is received by a peak search unit that analyzes the correlation results over time and searches for peaks that indicate alignment of the first and second data streams. | 2013-01-03 |
| 20130003905 | TRANSITION DETECTOR - An embodiment of a detector includes first and second generators. The first generator is operable to receive a transition of a first signal and to generate in response to the transition a first pulse having a length that is approximately equal to a length of a detection window. And the second generator is operable to receive a second signal and to generate a second pulse having a relationship to the first pulse in response to a transition of the second signal occurring approximately during the detection window. | 2013-01-03 |
