| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 348724000 | Modulator | 37 |
| 20090079878 | DIGITAL BROADCASTING SYSTEM AND METHOD OF PROCESSING DATA IN DIGITAL BROADCASTING SYSTEM - A digital broadcasting system and a data processing method are disclosed. A receiver receives a broadcast signal including mobile service data and main service data. A known data detector detects known data from the broadcast signal. An equalizer performs channel equalization on the mobile service data received by means of the detected known data. An RS frame decoder acquires an RS frame from the channel-equalized mobile service data. A management processor extracts a Generic Stream Encapsulation (GSE) packet from a GSE Base Band (BB) constructing one row of the RS frame, and calculates an IP datagram from the extracted GSE packet. A presentation processor displays broadcast data using data contained in the calculated IP datagram. | 03-26-2009 |
| 20090115911 | Methods for transmitting digital multimedia and data over the same wires - A method of transmitting a data stream over a communication channel, the method comprising: providing symbol sets having different numbers of symbols; modulating data in the data stream that warrant different degrees of protection against noise onto symbols from symbol sets having different numbers of symbols, wherein which symbol set given data in the stream is modulated onto is independent of symbol sets onto which other data in the data stream is modulated onto; and transmitting the symbols. | 05-07-2009 |
| 20090174820 | Multichannel Quadrature Modulation - A method is disclosed for modulating both quadrature components of each of a plurality of RF signals with waveforms comprising time varying vectors uniquely associated with each of the RF signals, the RF signals each occupying a bandwidth of a television channel and together comprising a multichannel signal spanning a frequency range that is substantially centered about a center frequency F. A CW signal is generated having a frequency equal to the center frequency F. Digital representations are produced of a first composite baseband signal and a second composite baseband signal. The digital representations of the first and second composite baseband signals are converted to a first analog and a second analog composite baseband signal respectively. The CW signal with the first analog and the second analog composite baseband signals are modulated in quadrature to generate the multichannel signal. | 07-09-2009 |
| 20090190039 | APPARATUS AND METHOD FOR TRANSMITTING AND RECEIVING PREAMBLES IN A DIGITAL VIDEO BROADCASTING SYSTEM - An apparatus and method for transmitting a preamble in a Digital Video Broadcasting (DVB) system are provided. The apparatus includes a first processor for generating a Modulation Signaling Sequence (MSS) using a plurality of received sequences, and for outputting a modulated sequence by differentially modulating the MSS. The apparatus also includes a scrambler for scrambling the modulated sequence by multiplying the modulated sequence by a scrambling sequence. A second processor receives the scrambled sequence through each allocated subcarrier, converts the received sequence into a time-domain signal, and generates and transmits the preamble. | 07-30-2009 |
| 20090284662 | Method and Apparatus for Providing Robust Reception in a Wireless Communications System - A transport stream for conveying a program for a particular channel includes an auxiliary channel, which conveys multiple lower resolution programs associated with other channels. When a receiver has difficulty receiving a particular channel due to the geographical location of the receiver, the receiver tunes to a stronger signal associated with another channel and recovers a lower resolution version of the desired program from the auxiliary channel conveyed therein. | 11-19-2009 |
| 20090284663 | LOW-COST ATSC-RECEIVER-COMPATIBLE DIGITAL TV MODULATOR - A method and apparatus by which ATSC-receiver-compatible digital TV signals may be generated without most of the discrete and/or high-complexity components required by the ATSC specification, through the use of a precomputation of digital filter coefficients that consolidates multiple functions into a single step, and through the derivation of multiple required carrier frequencies using a single oscillator circuit. The resulting design meets all requirements of the ATSC specification, reducing significantly the cost of the necessary signal-processing functions, and in a manner compatible with the VLSI (very-large-scale-integrated) circuit technologies of the field. | 11-19-2009 |
| 20090316052 | CIRCUIT FOR TRANSMITTING/RECEIVING VIDEO SIGNAL USING POWER LINE - The present invention is relating to a circuit for transmitting and receiving an image signal using a power line, wherein the transmitting circuit comprises; a bias unit for controlling a bias voltage of an image signal taken by a CCD camera; a differential amplifier, to which a power is supplied through a voltage drop unit, for amplifying the image signal which has passed through the bias unit into the broad-band signal; an oscillator IC, which is driven by using the image signal amplified into the broadband signal by the differential amplifier as an input power, for modulating the image signal while loading the image signal into the carrier frequency of an oscillation frequency; and transformers for inducing an alternating current image signal from the image signal modulated by the oscillator IC and outputting the image signal to the AC power line; and a receiving circuit comprises; a rectifier for supplying the AC power through the AC power line as a power required for operation; a transformer for inducing an alternating current image signal by an LC-tuned frequency with respect to an alternating current image signal received through the AC power line; an amplifier for amplifying the alternating current image signal to correct a receiving sensitivity; and an output amplifier for amplifying the output of the amplified image signal. Thereby, the circuit for transmitting and receiving an image signal using a power line according to the present invention can be characteristically manufactured at a low cost and installed with ease. | 12-24-2009 |
| 20100073575 | VSB RECEPTION SYSTEM WITH ENHANCED SIGNAL DETECTION FOR PROCESSING SUPPLEMENTAL DATA - A VSB reception system includes a sequence generator for decoding a symbol corresponding to the supplemental data and generating a predefined sequence included in the supplemental data at VSB transmission system. The reception system also includes a modified legacy VSB receiver for processing the data received from the VSB transmission system in a reverse order of the VSB transmission system by using the sequence, and a demultiplexer for demultiplexing the data from the modified legacy VSB receiver into the MPEG data and the supplemental data. The VSB reception system also includes a supplemental data processor for processing the supplemental data segment from the demultiplexer in a reverse order of the transmission system, to obtain the supplemental data, thereby carrying out the slicer prediction, decoding, and symbol decision more accurately by using the predefined sequence, to improve a performance. | 03-25-2010 |
| 20100073576 | VSB RECEPTION SYSTEM WITH ENHANCED SIGNAL DETECTION FOR PROCESSING SUPPLEMENTAL DATA - A VSB reception system includes a sequence generator for decoding a symbol corresponding to the supplemental data and generating a predefined sequence included in the supplemental data at VSB transmission system. The reception system also includes a modified legacy VSB receiver for processing the data received from the VSB transmission system in a reverse order of the VSB transmission system by using the sequence, and a demultiplexer for demultiplexing the data from the modified legacy VSB receiver into the MPEG data and the supplemental data. The VSB reception system also includes a supplemental data processor for processing the supplemental data segment from the demultiplexer in a reverse order of the transmission system, to obtain the supplemental data, thereby carrying out the slicer prediction, decoding, and symbol decision more accurately by using the predefined sequence, to improve a performance. | 03-25-2010 |
| 20100149427 | APPARATUS FOR ADAPTING RECEPTION MODES OF A MOBILE DTV RECEIVER IN RESPONSE TO SIGNALING - Implementation of Fast Information Channel (FIC) signaling when Chunks of FIC information span more than one sub-Frame of an M/H Frame is described. FIC signaling is advanced further at the digital television (DTV) transmitters than originally proposed, thereby eliminating need for substantial amounts of delay memory for coded M/H data in receivers for such data. Each FIC-Chunk includes a bit indicating when it is not applicable only to M/H Frames yet to be received but is also applicable to an M/H Frame being currently received. This facilitates reception being more quickly established after a change in DTV channel selection. Transmission Parameter Channel (TPC) signaling pertaining to the M/H Frame being currently received continues to the conclusion of the M/H Frame, so the total number of M/H Groups in each M/H sub-Frame is signaled to facilitate de-interleaving of the FIC signaling. Code combining of FIC Chunks is described. | 06-17-2010 |
| 20100220240 | DIGITAL TELEVISION TRANSMITTER AND METHOD OF CODING DATA IN DIGITAL TELEVISION TRANSMITTER - A pre-processor pre-processes enhanced data packets by coding the enhanced data packets for forward error correction (FEC) and expanding the FEC-coded data packets. A data formatter adds first null data into first place holders within each pre-processed enhanced data packet. A first multiplexer multiplexes the main data packets with the enhanced data packets having the first null data. A holder inserter inserts second null data into second place holders within an enhanced data packet outputted from the first multiplexer. A data interleaver replaces the second null data with parity data. A data generator generates at least one known data sequence. A symbol processor replaces the first null data included in an output of the data interleaver with the known data sequence(s). A non-systematic RS encoder generates the parity data by performing non-systematic RS-coding on an output of the symbol processor, and provides the parity data to the data interleaver. | 09-02-2010 |
| 20100225825 | Terminated concatenated convolutional coding of M/H group data in 8VSB digital television signals - M/H Groups each begin with a respective trellis-initialization of ⅔ trellis coding used as inner convolutional coding of concatenated convolutional coding (CCC). Concluding each M/H Group with another trellis-initialization of ⅔ trellis coding terminates the inner convolutional coding of the CCC properly, facilitating bi-directional decoding thereof. Properly terminating the inner convolutional coding of the CCC also facilitates wrap-around turbo decoding of that M/H Group beginning after the earlier training sequence with known 8VSB symbols and concluding with the trellis-initialization of ⅔ trellis coding before that earlier training sequence. At least one further trellis-initialization of ⅔ trellis coding can be inserted into an M/H Group for splitting it into first and second portions that can be decoded separately and that can be efficiently packed by portions of RS Frames employing transverse Reed-Solomon codes of a standard length. | 09-09-2010 |
| 20100328541 | UNIVERSAL TRANSMITTER AND RECEIVER FOR THE INTERNATIONAL TELEVISION BANDS - A universal transmitter and a universal receiver for respectively transmitting and receiving orthogonal frequency-division multiplexing (OFDM) signals using the international television bands respectively use fixed subcarrier spacing; fixed Fast Fourier Transform (FFT)/Inverse Fast Fourier Transform (IFFT) period values; a fixed symbol duration for each cyclic prefix option; and fixed WRAN frame parameters, but a selectable channel bandwidth for transmission and reception. | 12-30-2010 |
| 20110037903 | Terminated concatenated convolutional coding of M/H group data in 8VSB digital television signals - M/H Groups each begin with a respective trellis-initialization of 2/3 trellis coding used as inner convolutional coding of concatenated convolutional coding (CCC). Concluding each M/H Group with another trellis-initialization of 2/3 trellis coding terminates the inner convolutional coding of the CCC properly, facilitating bi-directional decoding thereof. Properly terminating the inner convolutional coding of the CCC also facilitates wrap-around turbo decoding of that M/H Group beginning after the earlier training sequence with known 8VSB symbols and concluding with the trellis-initialization of 2/3 trellis coding before that earlier training sequence. At least one further trellis-initialization of 2/3 trellis coding can be inserted into an M/H Group for splitting it into first and second portions that can be decoded separately and that can be efficiently packed by portions of RS Frames employing transverse Reed-Solomon codes of a standard length. | 02-17-2011 |
| 20110075044 | SUPPLYING BROADBAND HRC NETWORKS WITH NON-HARMONICALLY RELATED CARRIERS - Non-harmonically related carriers may be provided for signals entering a harmonically related carrier (HRC) network. A modified carrier frequency may be assigned for any and/or all harmonics of a reference frequency. The modified carrier frequency may be computed by determining a nearest multiple of an index frequency value to the nominal harmonic frequency. The modified carrier frequency may then be used to carry video signals into the HRC network. | 03-31-2011 |
| 20110164186 | DISTINGUISHING AND COMMUNICATING BETWEEN WHITE SPACE DEVICES TRANSMITTING ATSC-COMPATIBLE SIGNALS - White space signals are differentiated from licensed ATSC signals through modification of a waveform of the white space signal. White space signals may be modified by shifting the ATSC-compatible waveform so that the pilot frequency of the white space signal is at a location outside of the frequency range associated with the pilot frequency in a licensed ATSC signal or embedding a watermark signal into said ATSC-like white space signals. White space device transmitters generate the signals with these modifications and white space receivers are equipped to detect whether a pilot exists in the standard licensed pilot frequencies. Based on these differences, white space devices can better operate without interfering with licensed ATSC transmission. Additionally, the modification techniques may be used to embed data in the white space signal that may be used to communicate connection data or networking data to other white space devices. | 07-07-2011 |
| 20110187936 | MULTIPLE REDUCED-BANDWIDTH PROCESSING CHAINS TO ACHIEVE A FULL AND CONTINUOUS OUTPUT BAND FOR MULTIPLE CHANNEL CATV UPCONVERSION - A method of channel processing is provided wherein multiple reduced-bandwidth “processing blocks” may be combined at RF to allow for the continuous and flexible placement of multiple-channels across the full or partial CATV output band. Each reduced-bandwidth processing block is associated with a fixed-frequency upconversion. In order to allow for continuous agile channel placement, the processing blocks overlap one another in frequency at RF. In the case where it is not necessary that the full CATV band be available to the output, the number of required processing blocks and upconversion chains is reduced and individual processing blocks and upconversion chains may be used to cover multiple non-contiguous frequency bands. | 08-04-2011 |
| 20110249191 | COMMUNICATION VIA ADDRESS MODULATION - Systems and methods are provided for communication via address modulation on an communication channel. A first processing component is configured to produce a plurality of data packets. Each data packet has an associated address from a plurality of available addresses. The system further comprises a plurality of addressable entities, with each of the addressable entities being represented by a proper subset of at least two of the available addresses. A second processing component is configured to apply at least one conditioning process to the series of data packets. The first processing component is configured to select an address for each packet from the subset of available addresses representing the addressable entity associated with the packet as to communicate data between the first processing component and the second processing component. | 10-13-2011 |
| 20110285918 | Television Antenna System that can Read and Play Multimedia Video and Audio Information - A television antenna system includes a box-shaped television antenna receiver, an antenna mounted in the television antenna receiver and connected with a television to transmit television signals to the television, a multimedia interface mounted in the television antenna receiver, and a RF modulator mounted in the television antenna receiver and connected between the multimedia interface and the television to transmit audio/video signals from the multimedia interface to the television. Thus, the multimedia interface is connected with the television through the RF modulator. When in use, the television co-operates with the television antenna system to play the audio/video signals of an external multimedia equipment by operation of the multimedia interface, so that the external multimedia information is directly played in the television without having to be played in the computer. | 11-24-2011 |
| 20120057079 | METHOD AND SYSTEM FOR HYBRID INTEGRATION OF A TUNABLE LASER FOR A CABLE TV TRANSMITTER - A cable television transmitter includes a substrate including a silicon material, control electronics disposed in the substrate, and a gain medium coupled to the substrate. The gain medium includes a compound semiconductor material. The cable television transmitter also includes an optical modulator optically coupled to the gain medium and electrically coupled to the control electronics, a waveguide disposed in the substrate and optically coupled to the gain medium, a first wavelength selective element characterized by a first reflectance spectrum and disposed in the substrate, and a second wavelength selective element characterized by a second reflectance spectrum and disposed in the substrate. The cable television transmitter further includes an optical coupler disposed in the substrate and joining the first wavelength selective element, the second wavelength selective element, and the waveguide and an output mirror. | 03-08-2012 |
| 20120086865 | TAGGING DIGITAL TELEVISION SIGNALS - A method and apparatus for detecting leakage of a digital CATV channel signal from a CATV system. The digital CATV channel signal is amplitude modulated with a tag signal having a frequency in the range of about 3 Hz to about 35 Hz, and coupled to the CATV system. At a point of leakage from the CATV system, the amplitude modulated digital CATV channel signal can be detected using a leakage detector capable of recovering the tag signal. | 04-12-2012 |
| 20120327306 | METHOD AND APPARATUS FOR TRANSMITTING AND RECEIVING DATA IN BROADCASTING SYSTEM - Methods and apparatus are provided for transmitting data in a broadcasting system. Input data is encoded by an encoder. A first demultiplexer generates first transmission symbols using the encoded data. The first transmission symbols are modulated, and the modulated first transmission symbols are transmitted. A second demultiplexer generates second transmission symbols using at least a portion of the encoded data. The second transmission symbols are modulated and the modulated second transmission symbols are transmitted. | 12-27-2012 |
| 20130002962 | Systems for reducing adverse effects of deep fades in DTV signals designed for mobile reception - Digital television broadcasting signals employ parallel concatenated convolutional coding, commonly called “turbo coding”, to improve reception by receivers in motor vehicles. Turbo coded Reed-Solomon codewords are transversally disposed in the payload fields of encapsulating MPEG-2-compliant packets to improve the capability of the Reed-Solomon coding to overcome deep fades. Turbo codewords are transmitted more than once in so-called “staggercasting”. Reception of DTV signals is improved by combining soft decisions concerning repeated transmissions of turbo codewords before turbo decoding. Only the data components of turbo codewords are transmitted twice in “punctured” staggercasting of turbo codewords, with parity components being transmitted only once, so code rate is reduced by a smaller factor than two. | 01-03-2013 |
| 20130128125 | Digital Up-Converter and N-Channel Modulator with Flexible Association of QAM Generation Resources to Narrowcast and Broadcast Frequencies - Embodiments of a digital up-converter and an N-channel modulator are provided herein. The embodiments of the digital up-converter, in combination with the N-channel modulator, are capable of efficiently filling the spectrum of one or more RF signals with one or more types of information signals. For example, the digital up-converter can fill the spectrum of one or more RF signals with both broadcast and narrowcast video and data signals. In addition, the digital up-converter is capable of flexibly mapping the information signals to one or more channels of the one or more RF signals using a novel, three-level switching architecture. | 05-23-2013 |
| 20130141648 | TRANSMISSION AND RECEPTION APPARATUS AND TRANSMISSION AND RECEPTION SYSTEM - A transmission and reception apparatus, system for transmitting and receiving signals, and method for transmitting and receiving signals are disclosed. In one example, a transmitting part produces an output signal including a first digitally modulated signal. A receiving part includes a mixer circuit and receives an input signal including a second digitally modulated signal. A folding signal may be present as a function of the first digitally modulated signal and a clock signal used to produce the first digitally modulated signal. The mixer circuit performs frequency down conversion on the input signal, and may also be configured to perform a harmonic wave removal function on the input signal that reduces the presence of the folding signal from the input signal. The receiving part may further include a filter circuit that receives the frequency-down-converted input signal from the mixer circuit and selects a predetermined reception signal from the frequency-down-converted input signal. | 06-06-2013 |
| 20130242201 | TRANSMISSION SYSTEM AND TRANSMITTER - According to one embodiment, a transmission system includes a transmitter, and a receiver. The transmitter includes one or a plurality of light sources, a modulator, a first driver, a display, and a second driver. The one or a plurality of light sources is configured to emit a visible light whose light amount corresponds to a first drive signal. The modulator is configured to, according to transmission data to be transmitted from the transmitter to the receiver, modulate a first luminance signal indicative of an amount of the light the light source is configured to emit, to generate a second luminance signal. The first driver is configured to generate the first drive signal based on the second luminance signal. A mean of the second luminance signal during one frame in the input video signal is substantially equal to a value of the first luminance signal in the frame. | 09-19-2013 |
| 20130308060 | Nested Symbol Constellations Representing Respective Services for Graceful Degradation in the Presence of Noise - Symbols representing different classes of service are assigned to different modulation schemes so that the most important service (e.g., emergency messaging) can have the most robust performance, the next important service (e.g., audio) can have robust performance and so on including various grades of video (e.g., HDTV, SDTV) becoming available with decent received RF signal power. The separate modulation constellation points can be scaled to fit inside popular square constellation points to aide receiver synchronization. In this way, graceful degradation of service is afforded in the presence of noise in the channel. | 11-21-2013 |
| 20130329139 | Cellular Video, Wi-Fi and Spread Spectrum System and Method - A modulated video signal, received from a satellite, in a transceiver of a ship and of other water based communication devices, is demodulated and processed in a processor into a baseband processed video signal. The baseband video signal is processed and modulated into a Gaussian Minimum Shift Keyed (GMSK) or a Code Division Multiple Access (CDMA) or a Orthogonal Division Multiple Access (OFDM) modulated video signal. Receiving in a receiver a location finder information signal. Receiving and transmitting in a cellular phone one or more OFDM modulated signals in a Multiple Input Multiple Output (MIMO) system. Processing, cross-correlating and modulating, in a processor, a cross-correlator and a modulator of a cellular phone, an input signal into a processed, cross-correlated and modulated signal. | 12-12-2013 |
| 20140160359 | Cable Connected Mobile Video, Cellular and Wi-Fi Communications - A camera for generating in a first mobile device a video signal, for viewing by a user, on the first mobile device, the camera generated video signal. The first mobile device has a connector and a cable, to connect the first mobile device camera generated video signal, by cable, to a second mobile device or to a television (TV) set, for viewing the first mobile device camera generated video signal on the second mobile device or on a television (TV) set. The first mobile device has a receiver, demodulator and processor for receiving, demodulating and processing OFDM modulated signals used in a Wi-Fi network and has a second receiver, demodulator and processor for receiving, demodulating and processing CDMA modulated signals used in a cellular system. The first mobile device receives, demodulates and processes location finder signals, such as GPS signals and has a touch screen generated control signal to control use of the first mobile device. | 06-12-2014 |
| 20140184918 | NESTED SYMBOL CONSTELLATIONS REPRESENTING RESPECTIVE SERVICES FOR GRACEFUL DEGRADATION IN THE PRESENCE OF NOISE - Symbols representing different classes of service are assigned to different modulation schemes so that the most important service (e.g., emergency messaging) can have the most robust performance, the next important service (e.g., audio) can have robust performance and so on including various grades of video (e.g., HDTV, SDTV) becoming available with decent received RF signal power. The separate modulation constellation points can be scaled to fit inside popular square constellation points to aide receiver synchronization. In this way, graceful degradation of service is afforded in the presence of noise in the channel. | 07-03-2014 |
| 20150009409 | VIDEO DATA TRANSMITTER APPARATUS AND VIDEO DATA RECEIVER APPARATUS FOR TRANSMISSION SYSTEM USING MULTI-VALUE AMPLITUDE MODULATION - A video data transmitter apparatus generates and transmits a multi-value amplitude modulation signal by performing a multi-value amplitude modulation of a plurality of N bits per one symbol according to video data of a video signal or a color signal constituting the video signal, or a brightness signal and a color-difference signal. A data separator portion separates the video data into first to N-th pixel data, a difference calculator portion calculates (N−1) pieces of predetermined difference information based on the separated first to N-th pixel data, and a multi-value amplitude modulator portion performs a multi-value modulation so that predetermined N-bit data corresponds to a multi-value signal level closest to an intermediate level having an intermediate value between a maximum level and a minimum level of the multi-value signal level of the multi-value amplitude modulation signal. | 01-08-2015 |
| 20150009410 | VIDEO DATA TRANSMITTER APPARATUS AND VIDEO DATA RECEIVER APPARATUS FOR TRANSMISSION SYSTEM USING MULTI-VALUE AMPLITUDE MODULATION - A video data transmitter apparatus generates and transmits a multi-value amplitude modulation signal by performing a multi-value amplitude modulation of a plurality of N bits per one symbol according to video data of a video signal or a color signal constituting the video signal, or a brightness signal and a color-difference signal. A data separator portion separates the video data into first to N-th pixel data, a difference calculator portion calculates (N−1) pieces of predetermined difference information based on the separated first to N-th pixel data, and a multi-value amplitude modulator portion performs a multi-value modulation so that predetermined N-bit data corresponds to a multi-value signal level closest to an intermediate level having an intermediate value between a maximum level and a minimum level of the multi-value signal level of the multi-value amplitude modulation signal. | 01-08-2015 |
| 20150341586 | Broadcasting system with digital television signals and metadata that modulate respective sets of OFDM carriers - Digital television (DTV) broadcasting using COFDM modulation is designed to modulate orthogonal frequency-division-multiplexed (OFDM) mid-band carriers with metadata including synchronization signals and transmission-mode signals. DTV signals modulate OFDM carriers occupying portions of the frequency spectrum of the transmission channel that extend in frequency both below and above these mid-band carriers. The OFDM midband carriers are capable of signaling when a new broadcast service is used that differs from the one disclosed. The signaling is provided by modulating the midband carriers with respective elements of signature sequences, each of which signature sequences is composed of Zadoff-Chu sequences and repetitive pseudo-random sequences scrambled by a Zadoff-Chu sequence. | 11-26-2015 |
| 20150350595 | Transform-based methods to transmit the high-definition video - The present invention presents the HD video transmission methods, which transmit the HD video into transform domain. In an aspect of the present invention, at the HD video transmitter the HD video is transformed by a multi-dimensional transform. Through the discrete-time continuous-valued or quasi-continuous-valued modulation, the obtained coefficients in transform domain are preferably carried in parallel in a multiple-access channel in time-domain to the HD video receiver. | 12-03-2015 |
| 20160044270 | METHOD AND APPARTUS FOR MODULATING DATA AND RECORDING MEDIUM THEREOF - Provided are a method and apparatus for modulating data including a controller. The controller is configured to determine sizes of a first complex-number component and a second complex-number component of input data, and determine a cell to assign a sine wave to the input data, based on a difference between the sizes of the first complex-number component and the second complex-number component. | 02-11-2016 |
| 20160112692 | METHOD AND DEVICE FOR TRANSMITIING HIGH-DEFINITION VIDEO SIGNAL - Provided in embodiments of the present invention are a method and device for transmitting a high-definition video signal, comprising: isolating from the high-definition video signal a brightness signal and a chrominance signal, and, by using an analog signal transmission mode, using non-overlapping frequency hands to transmit respectively the brightness signal and the chrominance signal. The solution of the present invention employs the analog signal transmission method, utilizes independent frequency bands to transmit respectively the brightness signal and the chrominance signal, and ensures that the brightness signal and the chrominance signal do not affect each other, thus ensuring video quality and timeliness of the high-definition video signal when transmitted over a long distance. | 04-21-2016 |
| 20160165169 | Apparatus and Method for Transmitting Video Data in Communication System - Video data transmission in a communication system is provided. A method for operating a transmitting node includes generating a packet comprising data selected from compressed data and raw data based on a data size, and transmitting the packet. | 06-09-2016 |
