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3613results about "Standards conversion" patented technology

Combined SBI and conventional image processor

InactiveUS7995045B2Increasing and significantly changing footprintTelevision system detailsTelevision system scanning detailsData streamComputer graphics (images)
An apparatus and method for allowing multiple high and low resolution SBI and conventional FPA imaging devices to use a common high resolution monitor and archive device without increasing or significantly changing the footprint of existing devices. This system and method uses a frame grabber for digitizing video from the legacy FPA devices, a frame mapper for rendering or mapping the FPA video into the SBI digital format, a converter for rasterizing SBI data streams into pixel-oriented FPA video frames, an input selector for selecting which FPA or SBI imaging device to display on a high resolution monitor, an processor for storing and manipulating frames of video, a video output encoder for converting the SBI frames into a video signal appropriate for display on the high resolution monitor, and an output means for connecting to a storage device for archiving video and images.
Combined SBI and conventional image processor
Combined SBI and conventional image processor
Combined SBI and conventional image processor
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Owner:ETHICON ENDO SURGERY INC

Apparatus and method for optimized compression of interlaced motion images

InactiveUS6289132B1Easy to compressAvoid inefficiencyPicture reproducers using cathode ray tubesPicture reproducers with optical-mechanical scanningImaging processingInterlaced video
An interlaced image processing module and corresponding method facilitate improved processing of interlaced motion images. In one embodiment, the interlaced image processing module receives image data frames having interlaced first and second fields and produces a reference field and error field. The reference field corresponds to the still image content of the interlaced frame, whereas the error field corresponds to the motion content of the interlaced frame, particularly the motion between fields. Motion between fields is thus represented in the error field, without redundant representation of the still image content provided by the first field. Where there is little motion between fields, the error terms will be small so the predictor preserves the coding efficiency provided by any auto-correlation in the image. Further, the interlaced image processing method does not rely upon pixel group classification, and thus avoids classification errors, and the loss of coding efficiency from still image content in motion classified blocks. Finally, problems presented by relative motion between fields are avoided, as are local artifacts. Another embodiment transforms the interlaced fields into frame data having a high frequency field and a low frequency field.
Apparatus and method for optimized compression of interlaced motion images
Apparatus and method for optimized compression of interlaced motion images
Apparatus and method for optimized compression of interlaced motion images
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Owner:QUVIS +1

Interactive media guidance system having multiple devices

ActiveUS20080141303A1Limitation of display capacityTelevision system detailsPicture reproducers using cathode ray tubesGuidance systemComputer network
When selecting a television program for recording, a user may configure the delivery of the selected television program and associated data and interactive applications to different user equipment devices in a home network, which may have different capabilities. Because the user equipment devices in the home network may have different capabilities, the user may wish to deliver different types and amount of content, different amounts of data, and different versions of interactive applications to the user equipment devices in the home network.
Interactive media guidance system having multiple devices
Interactive media guidance system having multiple devices
Interactive media guidance system having multiple devices
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Owner:ROVI GUIDES INC

Method and system for generating, transmitting and utilizing bit rate conversion information

InactiveUS7660328B1Conveniently generated onceSimple processPicture reproducers using cathode ray tubesGHz frequency transmissionComputer scienceBit rate
A method and apparatus for generating and transmitting bit rate conversion information to be utilized during bit rate conversion decisions and a method and apparatus for performing bit rate adaptation of media signals to use an available bandwidth of a channel, the media signals being associated with bit rate conversion information, the method for utilizing the bit rate conversion information including the steps of: receiving the media signals and the bit rate conversion information; the bit rate conversion information being indicative of a change in a bit rate of the media signals resulting from bit rate conversion; and converting the multiplexed processed media signals in response to the available bandwidth and the bit rate conversion information.
Method and system for generating, transmitting and utilizing bit rate conversion information
Method and system for generating, transmitting and utilizing bit rate conversion information
Method and system for generating, transmitting and utilizing bit rate conversion information
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Owner:ARRIS GROUP

Video converter and computer program for executing said video converter

ActiveUS7212570B2Television system detailsTelevision system scanning detailsComputer graphics (images)Two step
A video converter for converting a coding format of a great deal of video contents has three kinds of conversion modes including a conversion mode for performing conversion in two steps in accordance with the kinds of input pictures so that a converting operation can be completed within a limit time set in advance.
Video converter and computer program for executing said video converter
Video converter and computer program for executing said video converter
Video converter and computer program for executing said video converter
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Owner:MAXELL HLDG LTD

Chroma motion vector derivation for interlaced forward-predicted fields

ActiveUS7317839B2Code conversionCharacter and pattern recognitionMotion vectorComputer science
Techniques and tools for deriving chroma motion vectors for macroblocks of interlaced forward-predicted fields are described. For example, a video encoder or decoder determines a prevailing polarity among luma motion vectors for a macroblock. The encoder or decoder then determines a chroma motion vector for the macroblock based at least in part upon one or more of the luma motion vectors having the prevailing polarity.
Chroma motion vector derivation for interlaced forward-predicted fields
Chroma motion vector derivation for interlaced forward-predicted fields
Chroma motion vector derivation for interlaced forward-predicted fields
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Owner:MICROSOFT TECH LICENSING LLC

Methods and apparatus for embedding and format conversion of compressed video data

InactiveUS7039116B1Easy to useEasy to embedPicture reproducers using cathode ray tubesPicture reproducers with optical-mechanical scanningData streamComputer network
System and methods are provided for modifying a compressed video data stream to match the available video decoding capability of a target decoder. Compressed video content can be embedded in another compressed bitstream to allow more efficient usage of available channel bandwidth. Format conversion allows flexible transmission of video content even if the original format and available decompression capabilities are mismatched.
Methods and apparatus for embedding and format conversion of compressed video data
Methods and apparatus for embedding and format conversion of compressed video data
Methods and apparatus for embedding and format conversion of compressed video data
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Owner:CISCO TECH INC

Predicting motion vectors for fields of forward-predicted interlaced video frames

ActiveUS20050053137A1Improve accuracyReduce bitratePicture reproducers using cathode ray tubesCode conversionInterlaced videoEncoder decoder
Techniques and tools for encoding and decoding predicted images in interlaced video are described. For example, a video encoder or decoder computes a motion vector predictor for a motion vector for a portion (e.g., a block or macroblock) of an interlaced P-field, including selecting between using a same polarity or opposite polarity motion vector predictor for the portion. The encoder / decoder processes the motion vector based at least in part on the motion vector predictor computed for the motion vector. The processing can comprise computing a motion vector differential between the motion vector and the motion vector predictor during encoding and reconstructing the motion vector from a motion vector differential and the motion vector predictor during decoding. The selecting can be based at least in part on a count of opposite polarity motion vectors for a neighborhood around the portion and / or a count of same polarity motion vectors.
Predicting motion vectors for fields of forward-predicted interlaced video frames
Predicting motion vectors for fields of forward-predicted interlaced video frames
Predicting motion vectors for fields of forward-predicted interlaced video frames
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Owner:MICROSOFT TECH LICENSING LLC

Sub-frame metadata distribution server

InactiveUS20080007651A1Picture reproducers using cathode ray tubesPicture reproducers with optical-mechanical scanningCommunication interfaceComputer graphics (images)
A distribution server includes a communication interface, storage, and processing circuitry. The processing circuitry retrieves a full screen sequence of video and sub-frame metadata relating to the full screen sequence of video. The processing circuitry sub-frame processes the sequence of full screen video using the sub-frame metadata to produce a plurality of sub-frames of video. The processing circuitry assembles the plurality of sub-frames of video to produce an output sequence for a client system. The distribution server may also receive, store, and distribute the sub-frame metadata and / or the video for subsequent use by a video processing system.
Sub-frame metadata distribution server
Sub-frame metadata distribution server
Sub-frame metadata distribution server
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Owner:AVAGO TECH WIRELESS IP SINGAPORE PTE

Image Processor, Image Processing Method, Recording Medium, Computer Program, And Semiconductor Device

ActiveUS20070279485A1Easy to set upSimple processInput/output for user-computer interactionImage analysisImaging processingDevice material
To provide an image processing technique for easy initial settings when a video image feature is used as an input interface. This is an image processor having an image combining section 106 for combining a mirrored video image feature that includes an image of an operator as a portion thereof and an object image of an object that is associated with a predetermined event, to generate a combined image, and being adapted to provide production of the combined image on a display device. This image processor has a detection section 109 for detecting the position of an image of an operator included in the mirrored video image feature. The image combining section 106 is adapted to combine the object image and the mirrored video image feature in such a manner that the object image is displayed in a range that an image of a hand of the operator can reach, depending on the position of the image of the operator detected by the detection section 109.
Image Processor, Image Processing Method, Recording Medium, Computer Program, And Semiconductor Device
Image Processor, Image Processing Method, Recording Medium, Computer Program, And Semiconductor Device
Image Processor, Image Processing Method, Recording Medium, Computer Program, And Semiconductor Device
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Owner:MICRONAS

System and method for three-dimensional video coding

InactiveUS20050084006A1Easy to compressMinimal restrictionPicture reproducers using cathode ray tubesPicture reproducers with optical-mechanical scanningInterlaced videoComputer graphics (images)
Systems and methods are provided for receiving and encoding 3D video. The receiving method comprises: accepting a bitstream with a current video frame encoded with two interlaced fields, in a MPEG2, MPEG4, or H.264 standard; decoding a current frame top field; decoding a current frame bottom field; and, presenting the decoded top and bottom fields as a 3D frame image. In some aspects, the method presents the decoded top and bottom fields as a stereo-view image. In other aspects, the method accepts 2D selection commands in response to a trigger such as receiving a supplemental enhancement information (SEI) message, an analysis of display capabilities, manual selection, or receiver system configuration. Then, only one of the current frame interlaced fields is decoded, and a 2D frame image is presented.
System and method for three-dimensional video coding
System and method for three-dimensional video coding
System and method for three-dimensional video coding
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Owner:SHARP KK

Motion vector block pattern coding and decoding

ActiveUS20050053143A1Picture reproducers using cathode ray tubesCode conversionVariable-length codeMotion vector
Techniques and tools for using motion vector block patterns in video encoding and decoding are described. In general, a motion vector block pattern signals the presence or absence of motion vector data for a macroblock with multiple motion vectors. For example, a video decoder decodes variable length codes that represent motion vector block patterns. Each motion vector block pattern has one bit per corresponding luminance motion vector of a macroblock with multiple luminance motion vectors, where the one bit indicates whether or not motion vector data for the corresponding luminance motion vector is signaled. A video encoder performs corresponding encoding.
Motion vector block pattern coding and decoding
Motion vector block pattern coding and decoding
Motion vector block pattern coding and decoding
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Owner:MICROSOFT TECH LICENSING LLC

Processing of removable media that stores full frame video & sub-frame metadata

InactiveUS20080007650A1Television system detailsPicture reproducers using cathode ray tubesVideo playerComputer graphics (images)
A removable storage media is received by and interacts with both a first video player system and a second video player system. The first video player system has a first video display that has a first display characteristic and the second video player system has a second video display that has a second display characteristic, the first display characteristic being different from the second display characteristic. The removable storage media includes a plurality of storage locations and stores a sequence of full frames of video data, first sub-frame metadata, and second sub-frame metadata. The first sub-frame metadata is generated and the second sub-frame metadata are used to process the full frames of video data to correspond to the first video display and the second video display, respectively.
Processing of removable media that stores full frame video & sub-frame metadata
Processing of removable media that stores full frame video & sub-frame metadata
Processing of removable media that stores full frame video & sub-frame metadata
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Owner:AVAGO TECH WIRELESS IP SINGAPORE PTE

Mobile device and method for receiving and processing program-accompanying data

InactiveUS7395031B1Achieve communicationArrangements for variable traffic instructionsNavigational calculation instrumentsDigital dataRadio receiver
Mobile device (3) and method for receiving and processing program-accompanying digital data, which are transmitted by a radio transmitter (1), for example a DAB transmitter, and of which at least certain comprise location parameters. The mobile device (3) includes a radio receiver (38), which can receive radio programs with program-accompanying digital data, and a position locating module (39) for establishing the current position, for example a GPS receiver. The mobile device (3) further comprises a filter module (37), by means of which, on the basis of the current position, determined by the said position locating module (39), location-specific information can be filtered from the received program-accompanying data, which contain, for example, order numbers, URL addresses or executable program data files. The received program-accompanying data can be filtered moreover by the said filter module (37) on the basis of a user profile (35) stored in the mobile device (3). Location-specific data can be shown on a display (31) of the mobile device (3), can be selected by the user by means of operating elements (32) of the mobile device (3), can be edited and can be further processed through the mobile device (3).
Mobile device and method for receiving and processing program-accompanying data
Mobile device and method for receiving and processing program-accompanying data
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Owner:SWISSCOM

Display apparatus and control method thereof

InactiveUS20060227249A1Reduce motion blurEasy to operateTelevision system detailsImage enhancementComputer graphics (images)Data profiling
Display apparatus and control method thereof
Display apparatus and control method thereof
Display apparatus and control method thereof
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Owner:SAMSUNG ELECTRONICS CO LTD

Adaptive video processing using sub-frame metadata

InactiveUS20080007649A1Television system detailsPicture reproducers using cathode ray tubesComputer graphics (images)Video processing
A video processing system applies sub-frame processing to video data to generate both a first sequence of sub-frames of video data and a second sequence of sub-frames of video data. The first sequence of sub-frames of video data and the second sequence of sub-frames of video data are defined by metadata. The processing circuitry generates a third sequence of sub-frames of video data by combining the first sequence of sub-frames of video data with the second sequence of sub-frames of video data. Adaptive video processing circuitry receives encoded source video data, raw source video data, similar display metadata, target display metadata, and / or target display information. The adaptive video processing circuitry processes its input information to produce one or more outputs that include tailored metadata, encoded target display video data, target display video data, and DRM / Billing Signaling.
Adaptive video processing using sub-frame metadata
Adaptive video processing using sub-frame metadata
Adaptive video processing using sub-frame metadata
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Owner:AVAGO TECH WIRELESS IP SINGAPORE PTE

Joint coding and decoding of a reference field selection and differential motion vector information

ActiveUS20050053141A1Picture reproducers using cathode ray tubesCode conversionVariable-length codeMotion vector
Techniques and tools for joint coding and decoding of reference field selection information and differential motion vector information are described. For example, a video decoder decodes a variable length code that jointly represents differential motion vector information and a motion vector predictor selection for a motion vector. The decoder then reconstructs the motion vector based at least in part on the differential motion vector information and the motion vector predictor selection. A video encoder performs corresponding processing.
Joint coding and decoding of a reference field selection and differential motion vector information
Joint coding and decoding of a reference field selection and differential motion vector information
Joint coding and decoding of a reference field selection and differential motion vector information
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Owner:MICROSOFT TECH LICENSING LLC

Method for deinterlacing interlaced video by a graphics processor

InactiveUS6970206B1Television system detailsPicture reproducers using cathode ray tubesGraphicsInterlaced video
A method for deinterlacing interlaced video using a graphics processor includes receiving at least one instruction for a 2D / 3D engine to facilitate creation of an adaptively deinterlaced frame image from at least a first interlaced field. The method also includes performing, by the 2D / 3D engine, at least a portion of adaptive deinterlacing based on at least the first interlaced field, in response to the at least one instruction to produce at least a portion of the adaptively deinterlaced frame image. Once the information is deinterlaced, the method includes retrieving, by a graphics processor display engine, the stored adaptively deinterlaced frame image generated by the 2D / 3D engine, for display on one or more display devices. The method also includes issuing 2D / 3D instructions to the 2D / 3D engine to carry out deinterlacing of lines of video data from interlaced fields. This may be done, for example, by another processing device, such as a host CPU, or any other suitable processing device.
Method for deinterlacing interlaced video by a graphics processor
Method for deinterlacing interlaced video by a graphics processor
Method for deinterlacing interlaced video by a graphics processor
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Owner:AVAGO TECH INT SALES PTE LTD

Multi-scale multi-camera adaptive fusion with contrast normalization

ActiveUS20090169102A1Reduce flickering artifactReduce artifactsTelevision system detailsImage enhancementMulti cameraEnergy based
A computer implemented method for fusing images taken by a plurality of cameras is disclosed, comprising the steps of: receiving a plurality of images of the same scene taken by the plurality of cameras; generating Laplacian pyramid images for each source image of the plurality of images; applying contrast normalization to the Laplacian pyramids images; performing pixel-level fusion on the Laplacian pyramid images based on a local salience measure that reduces aliasing artifacts to produce one salience-selected Laplacian pyramid image for each pyramid level; and combining the salience-selected Laplacian pyramid images into a fused image. Applying contrast normalization further comprises, for each Laplacian image at a given level: obtaining an energy image from the Laplacian image; determining a gain factor that is based on at least the energy image and a target contrast; and multiplying the Laplacian image by a gain factor to produce a normalized Laplacian image.
Multi-scale multi-camera adaptive fusion with contrast normalization
Multi-scale multi-camera adaptive fusion with contrast normalization
Multi-scale multi-camera adaptive fusion with contrast normalization
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Owner:SRI INTERNATIONAL

Deinterlacing of video sources via image feature edge detection

ActiveUS7023487B1Reduce artifactsPreserves maximum amount of vertical detailImage enhancementTelevision system detailsInterlaced videoProgressive scan
An interlaced to progressive scan video converter which identifies object edges and directions, and calculates new pixel values based on the edge information. Source image data from a single video field is analyzed to detect object edges and the orientation of those edges. A 2-dimensional array of image elements surrounding each pixel location in the field is high-pass filtered along a number of different rotational vectors, and a null or minimum in the set of filtered data indicates a candidate object edge as well as the direction of that edge. A 2-dimensional array of edge candidates surrounding each pixel location is characterized to invalidate false edges by determining the number of similar and dissimilar edge orientations in the array, and then disqualifying locations which have too many dissimilar or too few similar surrounding edge candidates. The surviving edge candidates are then passed through multiple low-pass and smoothing filters to remove edge detection irregularities and spurious detections, yielding a final edge detection value for each source image pixel location. For pixel locations with a valid edge detection, new pixel data for the progressive output image is calculated by interpolating from source image pixels which are located along the detected edge orientation.
Deinterlacing of video sources via image feature edge detection
Deinterlacing of video sources via image feature edge detection
Deinterlacing of video sources via image feature edge detection
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Owner:LATTICE SEMICON CORP

Device and method for converting format in digital TV receiver

InactiveUS7206025B2Reduce decreaseLow costTelevision system detailsTelevision system scanning detailsComputer hardwareImage resolution
Device and method for converting a format of a video signal in a digital TV receiver is provided. Format conversion can be carried out at one chip of a format converting device, inclusive of conversion of resolution, frame rate, scanning method, aspect ratio, color space, chroma format, and gamma correction. Therefore, the digital TV receiver is made to convert a wide range of video signals inclusive of, not only a digital TV broadcasting signal, but also analog TV broadcasting signal, and computer video signal, at one chip of system block. Moreover, the digital TV receiver is made to provide a variety of standards of format converted video signals, not only to the connected display, but also to other general video signal processing devices.
Device and method for converting format in digital TV receiver
Device and method for converting format in digital TV receiver
Device and method for converting format in digital TV receiver
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Owner:LG ELECTRONICS INC

Selecting between dominant and non-dominant motion vector predictor polarities

ActiveUS20050053144A1Picture reproducers using cathode ray tubesCode conversionMotion vectorVideo decoder
Techniques and tools for selecting between dominant and non-dominant polarities for motion vector predictors are described. For example, a video decoder determines dominant and non-dominant polarities for a motion vector predictor, decodes signaled information that indicates a selection between the dominant and non-dominant polarities, and determines the motion vector predictor from the dominant and non-dominant polarities and the signaled information. The decoder reconstructs a motion vector from the motion vector predictor and motion vector differential information. A video encoder performs corresponding processing.
Selecting between dominant and non-dominant motion vector predictor polarities
Selecting between dominant and non-dominant motion vector predictor polarities
Selecting between dominant and non-dominant motion vector predictor polarities
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Owner:MICROSOFT TECH LICENSING LLC

Format converter

InactiveUS6097437ATelevision system detailsTelevision system scanning detailsMicrocomputerDigital pictures
A format converter includes: a microcomputer for receiving horizontal and vertical synchronizing signals from a host, determining a video mode, and generating data that indicates the number of dots per a period of a horizontal output signal; a W-PLL and time generator for receiving the data from the microcomputer, and generating a write clock signal; an R-PLL and time generator for receiving the data and the horizontal synchronizing signal respectively generated by the microcomputer and the host, and generating a read clock signal; an AD converting section for sampling an analog picture signal received from the host according to the write clock signal of the W-PLL and time generator, and converting it to a digital picture signal; and a format converting section for storing the picture signal received from the AD converter according to the period of the write clock signal of the W-PLL and time generator, and converting the format of the stored picture signal according to the read clock signal received from the R-PLL and time generator.
Format converter
Format converter
Format converter
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Owner:SAMSUNG ELECTRONICS CO LTD

Number of reference fields for an interlaced forward-predicted field

ActiveUS20050053134A1Picture reproducers using cathode ray tubesCode conversionInterlaced videoMotion vector
Techniques and tools for signaling the number of reference fields for an interlaced forward-predicted field are described. For example, a video decoder processes a first signal indicating whether an interlaced forward-predicted field has one or two reference fields for motion compensation. If the first signal indicates the interlaced forward-predicted field has one reference field, the decoder processes a second signal identifying the one reference field from among the two reference fields. On the other hand, if the first signal indicates the interlaced forward-predicted field has two reference fields, for each of multiple motion vectors of the interlaced forward-predicted field, the decoder processes a third signal for selecting between the two reference fields. A video encoder performs corresponding signaling.
Number of reference fields for an interlaced forward-predicted field
Number of reference fields for an interlaced forward-predicted field
Number of reference fields for an interlaced forward-predicted field
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Owner:MICROSOFT TECH LICENSING LLC

System and method for three-dimensional video coding

InactiveUS7650036B2Picture reproducers using cathode ray tubesPicture reproducers with optical-mechanical scanningComputer graphics (images)Computer science
Systems and methods are provided for receiving and encoding 3D video. The receiving method comprises: accepting a bitstream with a current video frame encoded with two interlaced fields, in a MPEG2, MPEG4, or H.264 standard; decoding a current frame top field; decoding a current frame bottom field; and, presenting the decoded top and bottom fields as a 3D frame image. In some aspects, the method presents the decoded top and bottom fields as a stereo-view image. In other aspects, the method accepts 2D selection commands in response to a trigger such as receiving a supplemental enhancement information (SEI) message, an analysis of display capabilities, manual selection, or receiver system configuration. Then, only one of the current frame interlaced fields is decoded, and a 2D frame image is presented.
System and method for three-dimensional video coding
System and method for three-dimensional video coding
System and method for three-dimensional video coding
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Owner:SHARP KK

Asymmetric multi-GPU processing

ActiveUS20070195099A1Improve processing efficiencyTelevision system detailsPicture reproducers using cathode ray tubesMulti gpuParallel computing
A system for processing video data includes a host processor, a first media processing device coupled to a first buffer, the first media processing device configured to perform a first processing task on a frame of video data, and a second media processing device coupled to a second buffer, the second media processing device configured to perform a second processing task on the processed frame of video data. The architecture allows the two devices to have asymmetric video processing capabilities. Thus, the first device may advantageously perform a first task, such as decoding, while the second device performs a second task, such as post processing, according to the respective capabilities of each device, thereby increasing processing efficiency relative to prior art systems. Further, one driver may be used for both devices, enabling applications to take advantage of the system's accelerated processing capabilities without requiring code changes.
Asymmetric multi-GPU processing
Asymmetric multi-GPU processing
Asymmetric multi-GPU processing
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Owner:NVIDIA CORP

Multi media data storing and transmitting method and system using the same

InactiveUS6175573B1Television system detailsPulse modulation television signal transmissionMultiplexingNetwork packet
A multimedia data storing and transmitting method and a device using the method may improve flexibility and accuracy of reproduction of a multimedia data stream in a reception terminal, when a multimedia data storage device transmits the multimedia data stream. The multimedia data storing and transmitting method includes the steps of making a set of moving picture data, sound data, and multiplexed information of the moving picture data and the sound data into a packet, distinguishing a data packet of themoving picture data, the sound data, and the multiplexed information from a header packet of the moving picture data, the sound data, and the multiplexed information, storing the distinguished data packet and header packet, and transmitting the stored data packet following the stored header packet.
Multi media data storing and transmitting method and system using the same
Multi media data storing and transmitting method and system using the same
Multi media data storing and transmitting method and system using the same
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Owner:FUJITSU LTD

Rapid movement estimating method

InactiveCN1925614AImprove smoothnessFast convergenceDigital video signal modificationStandards conversionMotion fieldEstimation methods
This invention relates to one rapid movement estimation method, which comprises the following steps: a, dividing each frame of images into several blocks and determining vector space upper and down message on each current image composed of upper and down messages to determine several prepare motion vector; computing each prepare motion vector matching error values with low motion matching error values with current pixel module designed as motion vector step.
Rapid movement estimating method
Rapid movement estimating method
Rapid movement estimating method
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Owner:深圳清研创业投资有限公司

Method and apparatus for video deinterlacing and format conversion

ActiveUS20050134730A1Raise the confidence levelTelevision system detailsPicture reproducers using cathode ray tubesPattern recognitionInterlaced video
A method for deinterlacing a picture is disclosed. The method generally includes the steps of (A) determining a protection condition by performing a static check on the picture in a region around a location interlaced with a first field of the picture, (B) calculating an interpolated sample at the location by temporal averaging the first field with a second field in response to the protection condition indicating significant vertical activity and (C) calculating the interpolated sample at the location by spatial filtering the first field in response to the protection condition indicating insignificant vertical activity.
Method and apparatus for video deinterlacing and format conversion
Method and apparatus for video deinterlacing and format conversion
Method and apparatus for video deinterlacing and format conversion
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Owner:AVAGO TECH INT SALES PTE LTD

Capture node for use in an audiovisual signal routing and distribution system

ActiveUS20060239294A1Format conversionHeterogeneous distributionTelevision system detailsTime-division multiplexSignal routingDistribution system
An audiovisual signal is converted from a native format to a digital, packetized interchange format and transported between a capture node and a display node through a switch. The display node converts the audiovisual signal from the interchange format to a displayable format and causes display of the audiovisual signal. The use of a switch for video routing and distribution allows one-to-one, one-to-many, many-to-one, and many-to-many distribution. The use of a device-independent interchange format allows concurrent distribution of multiple heterogeneous audiovisual signals.
Capture node for use in an audiovisual signal routing and distribution system
Capture node for use in an audiovisual signal routing and distribution system
Capture node for use in an audiovisual signal routing and distribution system
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Owner:JUPITER SYST LLC +1

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