Patent application number | Description | Published |
20090080527 | Method and Apparatus for Providing a Fast Motion Estimation Process - A process performs a search on a base reference frame in a video signal to determine a first motion vector for each of the possible partitions of a current macroblock. The first motion vector for a partition provides the most optimal match for the partition in the base reference frame. An optimal partition for the current macroblock, which gives a minimum motion estimation cost among all the possible partitions in the base reference frame, is determined. The process performs the search on the optimal partition over a non-base reference frame in the video signal to determine a second motion vector that provides the most optimal match for the corresponding partition in the non-base reference frame. A simplified search is performed on each partition other than the optimal partition over the non-base reference frame to determine the second motion vector for the corresponding partition. | 03-26-2009 |
20090110066 | Method and Apparatus for Selecting a Coding Mode - A method and apparatus for selecting a coding mode for a block of a current picture are disclosed. For example, the method selects a coding mode in accordance with a cost function, for coding the block, wherein the cost function comprises a coding distortion parameter and a number of coding bits parameter, wherein said coding distortion parameter is measured in accordance with at least one of: between a prediction residual and a reconstructed prediction residual, or between a transformed prediction residual and a dequantized transformed prediction residual, wherein the number of coding bits parameter is computed in accordance with at least one of: from a true number of compressed bits resulting from coding said block, directly from a plurality of bins, or directly from a plurality of quantized transform coefficients. | 04-30-2009 |
20090129472 | Method and Apparatus for Performing Motion Estimation - The present invention discloses a system and method for performing motion estimation associated with an encoder, e.g., a H.264/MPEG-4 AVC compliant encoder. For example, the method selects a motion vector centering for a current block in a search area of at least one reference picture. The method calculates a matching cost for each of a plurality of candidate motion vectors derived from the search area, and outputs at least one of the plurality of candidate motion vectors based on the matching cost associated with each of the plurality of candidate motion vectors to a main coding loop. | 05-21-2009 |
20100061458 | METHOD AND APPARATUS FOR FAST MOTION ESTIMATION - Embodiments of the invention generally provide a method and apparatus for fast motion estimation. One embodiment of a method for motion estimation includes classifying a macroblock of a source frame in accordance with an initial matching cost, an intermediate matching cost, and a final matching cost, where the intermediate matching cost is estimated based on a predicted motion vector for the source frame and the final matching cost is estimated based on a final motion vector for a correlated macroblock in a prior frame, performing motion estimation for the macroblock based upon the classifying, wherein an early termination is applied in accordance with a result of the classifying, and outputting a motion vector for the macroblock based on a result of the motion estimation. | 03-11-2010 |
20100061459 | METHOD AND APPARATUS FOR COMPLEXITY-SCALABLE MOTION ESTIMATION - Embodiments of the invention generally provide a method and apparatus for complexity-scalable video coding. One embodiment of a method for video coding includes receiving a sequence of one or more video frames, obtaining a budget for the one or more video frames, the budget specifying a maximum number of computations that may be used in performing motion estimation for the one or more video frames, allocating the maximum number of computations among individual ones of the one or more video frames, performing motion estimation in accordance with the allocating, and outputting a motion estimate for the sequence. | 03-11-2010 |
20100080295 | METHOD AND APPARATUS FOR SCALABLE MOTION ESTIMATION - Embodiments of the invention generally provide a method and apparatus for scalable motion estimation. One embodiment of a method for performing motion estimation includes setting a target complexity for a macroblock of a source frame and performing motion estimation for one or more partitions of the macroblock until the target complexity is met. | 04-01-2010 |
20110064141 | Picture Level Adaptive Frame/Field Coding for Digital Video Content - A method and system of encoding and decoding digital video content. The digital video content comprises a stream of pictures which can each be intra, predicted, or bi-predicted pictures. Each of the pictures comprises macroblocks that can be further divided into smaller blocks. The method entails encoding and decoding each picture in said stream of pictures in either frame mode or in field mode. | 03-17-2011 |
20110075738 | TRANSCODER FROM FIRST MPEG STREAM TO SECOND MPEG STREAM - A system is configured to transcode a first MPEG stream to a second MPEG stream. The system includes a first MPEG decoder capable of decoding the first MPEG stream and a second MPEG encoder capable of producing the second MPEG stream. The second MPEG encoder is configured to maintain a decoded picture type of I, P, or B. The second MPEG encoder is also configured to maintain a decoded picture structure of frame or field, identify a metadata per each macroblock (MB) of an MB pair of the first MPEG stream, and determine whether to re-encode the MB into the second MPEG stream using one of the frame or the field mode based on the identified metadata. The second MPEG encoder is further configured to re-encode the MB pair into the second MPEG stream using one of the frame or the field mode based on the identified metadata. | 03-31-2011 |
20110085593 | Macroblock Level Adaptive Frame/Field Coding for Digital Video Content - A method and system of encoding and decoding digital video content. The digital video content comprises a stream of pictures which can each be intra, predicted, or bi-predicted pictures. Each of the pictures comprises macroblocks that can be further divided into smaller blocks. The method entails encoding and decoding each of the smaller blocks in each picture in said stream of pictures in either frame mode or in field mode. | 04-14-2011 |
20110274176 | PATHWAY INDEXING IN FLEXIBLE PARTITIONING - There is a processing of an incoming video signal into a compressed video bitstream. The processing includes determining indexed pathways of blocks in the incoming video signal. The processing also includes determining flexible partitioning of the blocks utilizing partitioning lines. The partitioning lines are based on index units in the determined indexed pathways. The processing also includes generating PIFP information associated with the determined flexible partitioning and encoding the generated PIFP information associated with the PIFP encoded video. Also, there is a processing of received PIFP encoded video utilizing received encoded PIFP information associated with the received PIFP encoded video. | 11-10-2011 |
20120082216 | CODING AND DECODING UTILIZING PICTURE BOUNDARY PADDING IN FLEXIBLE PARTITIONING - There is a coding including-preparing coding units based on source pictures. The coding units are associated with largest coding tree units (LCTUs) which are polygons of source pictures. A tree format is utilized in processing the LCTUs into coding units. The preparing includes calculating an efficiency measure associated with a source picture position in a coordinate system based on fitting the coordinate system and the source picture with respect to each other. The preparing includes determining the source picture position based on a coding efficiency goal. The preparing includes determining padding areas. The source picture and padding areas are divided into LCTUs based on the coordinate system and the determined source picture position. The LCTUs are partitioned into coding units based on the tree format and a homogeneity rule. There is also a decoding including processing video compression data which is generated based on the coding units. | 04-05-2012 |
20120082234 | CODING AND DECODING UTILIZING ADAPTIVE CONTEXT MODEL SELECTION WITH ZIGZAG SCAN - There is a coding. The coding may include preparing video compression data based on source pictures utilizing a processor. The preparing may include processing a generated transform unit, including generating a significance map having a significance map array with y-x locations corresponding to the transform array. The generating may include scanning, utilizing a zigzag scanning pattern, a plurality of significance map elements in the significance map array. The generating may also include determining, utilizing the zigzag scanning pattern, a context model for coding a significance map element of the plurality of significance map elements based on a value associated with at least one coded neighbor significance map element of the significance map element in the significance map array. There is also a decoding including processing video compression data which is generated in the coding. | 04-05-2012 |
20120082235 | CODING AND DECODING UTILIZING CONTEXT MODEL SELECTION WITH ADAPTIVE SCAN PATTERN - There is a coding. The coding may include preparing video compression data based on source pictures. The preparing may include partitioning the source pictures into coding units and/or generating a transform unit having a transform array. The preparing may also include processing the generated transform unit. The processing may include generating a significance map, having a significance map array with y-x locations corresponding to the y-x locations of the transform array. The processing may also include determining, utilizing a scanning pattern, a context model for coding a significance map element of the plurality of significance map elements based on a value associated with at least one coded neighbor significance map element of the plurality of significance map elements in the significance map array. There is also a decoding including processing video compression data which is generated in the coding. | 04-05-2012 |
20120082238 | CODING AND DECODING UTILIZING PICTURE BOUNDARY VARIABILITY IN FLEXIBLE PARTITIONING - There is a coding including-preparing coding units based on source pictures. The coding units are associated with largest coding tree units (LCTUs) which are polygons of source pictures. A tree format is utilized in processing the LCTUs into coding units. The preparing includes calculating an efficiency measure associated with a source picture position in a coordinate system based on fitting the coordinate system and the source picture with respect to each other. The preparing includes determining the source picture position based on a coding efficiency goal. The source picture is divided into LCTUs based on the coordinate system and the determined source picture position. There is also a decoding including processing video compression data which is generated based on the coding units based on partitions of LCTUs. | 04-05-2012 |
20120082243 | Method and Apparatus for Feature Based Video Coding - In a video distribution system, a divider ( | 04-05-2012 |
20120170646 | METHOD AND APPARATUS FOR SPACIAL SCALABILITY FOR HEVC - In a video distribution system, a divider ( | 07-05-2012 |
20120170653 | BLOCK BASED SAMPLING CODING SYSTEMS - A block based sampling (BBS) encoding system to process an incoming video signal into a compressed video bitstream. The BBS encoding system includes a processor to determine anchor blocks in a picture from the incoming video signal. The processor is also to encode the anchor blocks in the picture, and may also encode interpolated blocks in the picture using at least one of the encoded anchor blocks. There is also a block based sampling (BBS) decoding system to decode pictures from an incoming compressed video bitstream. The BBS decoding system includes a processor to receive the incoming compressed video bitstream including anchor block coding decisions about anchor blocks in a pattern in a picture, and decode the received anchor block coding decisions to form the anchor blocks in the pattern in the picture. | 07-05-2012 |
20120177116 | Efficient Transform Unit Representation - In one embodiment, a method includes receiving a prediction unit (PU) for a coding unit (CU) of the video content. The method analyzes the prediction unit to determine a size of prediction unit. A size of a transform unit is determined based on the size of the prediction unit based on a set of rules. The set of rules specify the size of the transform unit is linked to the size of prediction unit and not a size of the coding unit. The method then outputs the size of the transform unit for use in a transform operation. | 07-12-2012 |
20120183052 | METHOD AND SYSTEM FOR PROCESSING VIDEO DATA - In various embodiments, a significance map of a matrix of video data coefficients is encoded or decoded using context-based adaptive binary arithmetic coding (CABAC). The significance map scanned line-by-line along a scanning pattern. Each line may be a vertical, horizontal, or diagonal section of the scanning pattern. Context models for each element processed in a particular line are chosen based on values of neighboring elements that are not in the line. Avoiding reliance on neighbors that are in the same line facilitates parallel processing. | 07-19-2012 |
20120201298 | Implicit Transform Unit Representation - In one embodiment, a method includes receiving a size of a coding unit (CU) for a block of video content. Information associated with a prediction unit (PU) type for a prediction unit of the coding unit is also received. The method then applies the size of the coding unit and the information associated with the prediction unit type to a function to determine a size of at least one transform unit for the prediction unit. The size of the at least one transform unit is outputted for use in a transform operation. | 08-09-2012 |
20120207222 | METHOD AND SYSTEM FOR PROCESSING VIDEO DATA - In various embodiments, a significance map of a matrix of video data coefficients is encoded or decoded using context-based adaptive binary arithmetic coding (CABAC). The significance map scanned line-by-line along a scanning pattern. Each line may be a vertical, horizontal, or diagonal section of the scanning pattern. Context models for each element processed in a particular line are chosen based on values of neighboring elements that are not in the line. The neighboring elements may be limited to those contained within one or two other scanning lines. Avoiding reliance on neighbors that are in the same scanning line facilitates parallel processing. | 08-16-2012 |
20120224098 | METHOD AND SYSTEM FOR INTERPOLATING FRACTIONAL VIDEO PIXELS - A method and system for interpolating video pixels is described, in which the value of a first fractional pixel is calculated based on the values of the first set of integer pixels, while the value of a second fractional pixel is calculated based on the values of the second set of integer pixels. The first set of integer pixels is not equal to the second set of integer pixels. For example, the first and second set may contain different integer pixels and may contain different numbers of integer pixels. | 09-06-2012 |
20120224639 | METHOD FOR INTERPOLATING HALF PIXELS AND QUARTER PIXELS - A method and system for interpolating video pixels is described, in which the values of a first quarter pixel, a half pixel and a second quarter pixel are calculated based on certain interpolation filter coefficients. | 09-06-2012 |
20120230407 | Interpolation Filter Selection Using Prediction Index - In one embodiment, a method for encoding or decoding video content is provided. The method includes determining a set of interpolation filters for use in interpolating sub-pel pixel values and a mapping between interpolation filters in the set of interpolation filters and different prediction indexes of the video content. A unit of video content is received and a prediction index is determined in a plurality of prediction indexes that are used to determine a prediction block for the unit of video content. The method then determines an interpolation filter in the set of interpolation filters based on a mapping between the interpolation filter and the prediction index to interpolate a sub-pel pixel value for use in a temporal prediction process for the unit of video content. | 09-13-2012 |
20120230413 | INTERPOLATION FILTER SELECTION USING PREDICTION UNIT (PU) SIZE - In one embodiment, a method for encoding or decoding video content is provided. The method includes determining a set of interpolation filters for use in interpolating sub-pel pixel values and a mapping between interpolation filters in the set of interpolation filters and different sizes of prediction units (PUs) of video content. A PU of video content is received and a size of the received PU is determined The method determines an interpolation filter in the set of interpolation filters based on a mapping between the interpolation filter and the size of the received PU to interpolate a sub-pel pixel value for use in a temporal prediction process for the PU. | 09-13-2012 |
20120328020 | FRACTIONAL PIXEL INTERPOLATION FILTER FOR VIDEO COMPRESSION - In one embodiment, a method for encoding or decoding video content is provided. The method includes receiving a plurality of full-pel pixel values. A set of coefficients is determined for an interpolation filter to interpolate a sub-pel pixel value for a motion compensation operation. Different coefficients are assigned to weight the plurality of full-pel pixel values in different operations in the interpolation filter. The sub-pel pixel values from the different operations are determined. Then, the method outputs the interpolated sub-pel pixel value for use in the motion compensation operation. | 12-27-2012 |
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. | 01-03-2013 |
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. | 01-03-2013 |
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. | 01-03-2013 |
20130022108 | QUANTIZATION PARAMETER DERIVATION FROM QP PREDICTOR - A method for determining quantization parameters is provided. The method includes determining one or more first units of video content in a grouping of units and analyzing whether the one or more first units of video content within a region in the grouping of units have coefficients for the video content that are zero. The method then determines whether a quantization parameter for one or more second units of video content different from the one or more first units of video content is to be used to derive the quantization parameter for the one or more first units of video content. When the quantization parameter for the one or more second units of video content is to be used, the quantization parameter for the one or more first units of video content is derived from the quantization parameter for the one or more second units of video content. | 01-24-2013 |
20130039417 | RESIDUAL TREE STRUCTURE OF TRANSFORM UNIT PARTITIONING - In one embodiment, a method includes receives a prediction unit (PU) for a coding unit (CU) of video content. The PU is partitionable into a plurality of PU partition types. The method determines a PU partition type for the PU and a residual tree structure based on the PU partition type for partitioning of the CU into transform units (TUs). The residual tree includes a binary partition of a node into two. A TU partition for the PU partition type is determined based on the residual tree structure and a desired level of partitioning in the residual tree structure. The method then uses the TU partition in a transform operation. | 02-14-2013 |
20130128967 | EXPLICIT WAY FOR SIGNALING A COLLOCATED PICTURE FOR HIGH EFFICICENCY VIDEO CODING (HEVC) - A system is provided for determining a collocated reference picture to enable encoding and decoding of a current picture for high efficiency video coding (HEVC). The collocated picture is identified by accessing syntax that can include an index for a list | 05-23-2013 |
20130128969 | EXPLICIT WAY FOR SIGNALING A COLLOCATED PICTURE FOR HIGH EFFICICENCY VIDEO CODING (HEVC) USING REFERENCE LIST0 AND LIST1 - A system is provided for determining a collocated reference picture to enable encoding and decoding of a current picture for high efficiency video coding (HEVC). The collocated picture is identified by accessing syntax that can include an index for a list0 and a list1, a reference picture set number indicating the number of pictures in list0 and list1, and a flag indicating if the collocated picture is in list0 or list1. The system can further use slice type to determine if both list0 and list1 should be accessed. | 05-23-2013 |
20130128970 | EXPLICIT WAY FOR SIGNALING A COLLOCATED PICTURE FOR HIGH EFFICICENCY VIDEO CODING (HEVC) USING A SINGLE REFERENCE LIST - A system is provided for determining a collocated reference picture to enable encoding and decoding of a current picture for high efficiency video coding (HEVC). The collocated picture is identified by accessing syntax that can include an index for a list | 05-23-2013 |
20130128977 | IMPLICIT DETERMINATION AND COMBINED IMPLICIT AND EXPLICIT DETERMINATION OF COLLOCATED PICTURE FOR TEMPORAL PREDICTION - In one embodiment, a method determines a current picture and determines at least one of a first list of reference pictures and a second list of reference pictures for the current picture. A temporal distance is analyzed between the current picture and at least a portion of the reference pictures in the at least one of a first list of reference pictures and a second list of reference pictures. The method then selects reference picture that is closest in temporal distance from the current picture in the analyzed at least a portion of the reference pictures. The selected reference picture is set as a collocated picture for the current picture and the selected reference picture is used in a temporal prediction process for the current picture. | 05-23-2013 |
20130142261 | SCALABLE MOTION ESTIMATION WITH MACROBLOCK PARTITIONS OF DIFFERENT SHAPES AND SIZES - Scalable motion estimation is provided for macroblocks of a picture with the macroblocks being subdividable into partitions of different shapes and sizes. One embodiment of a method for performing motion estimation includes setting a target complexity for a macroblock of a source frame and performing motion estimation for one or more partitions of the macroblock until the target complexity is met. The macroblock partitions can be rectangular, square or a combination of rectangular and square. | 06-06-2013 |
20130163663 | IMPLICIT DETERMINATION OF COLLOCATED PICTURE FOR TEMPORAL PREDICTION - In one embodiment, a method determines a block of a current picture and a prediction type associated with the block. Also, the method determines one of a first list of reference pictures and a second list of reference pictures for the block. An encoder or a decoder selects the one of the first list of reference pictures or the second list of reference pictures implicitly without communication of information between the encoder and the decoder indicating which of the first list of reference pictures or the second list of reference pictures was selected. Then, the method sets a reference picture in the selected one of the first list of reference pictures and the second list of reference pictures as a collocated picture for the block. The selected reference picture is used in a temporal prediction process for the block. | 06-27-2013 |
20130182769 | EFFICIENT STORAGE OF MOTION INFORMATION FOR HIGH EFFICIENCY VIDEO CODING - A method, apparatus, article of manufacture, and a memory structure for signaling the storage of motion information describing the depicted motion associated with digital pictures. In one embodiment, the method comprises signaling the replacement of a motion vector stored in connection with a previously coded picture with the motion vector of the currently coded frame. Another signal may be used to indicate motion vector replacement for all pictures in a sequence. | 07-18-2013 |
20130188688 | DEVICES AND METHODS FOR CONTEXT REDUCTION IN LAST SIGNIFICANT COEFFICIENT POSITION CODING - In one embodiment, a method of video encoding, the method comprising: encoding a position of a last non-zero coefficient within a video block, wherein the position of the last non-zero coefficient is provided in a significance map according to block width; and assigning at least one context model to the significance map; wherein the at least one context model includes at least three first contexts, and wherein each of the first three contexts is configured to be shared across two or more blocks of different widths. | 07-25-2013 |
20130195182 | SIMPLIFICATION OF SIGNIFICANCE MAP CODING - In one embodiment, a method for encoding video data is provided that includes receiving an array of transform coefficients corresponding to a luma component or a chroma component of the video data. The method further includes encoding a significance map for the array, where the encoding includes selecting, using a shared context derivation process that applies to both the luma component and the chroma component, context models for encoding significance values in the significance map. | 08-01-2013 |
20130202026 | DEVICES AND METHODS FOR CONTEXT REDUCTION IN LAST SIGNIFICANT COEFFICIENT POSITION CODING - In one embodiment, a method of video encoding is disclosed, the method comprising: encoding a position of a last non-zero coefficient within a video block having a first width, wherein the position of the last non-zero coefficient is provided as a string of binary values, wherein each binary value in said string corresponds to a bin index value; and determining a context index value for each bin index value, wherein the context index value for each bin index value is configured to be shared across two or more blocks of different widths. | 08-08-2013 |
20130202034 | EXPLICIT WAY FOR SIGNALING A COLLOCATED REFERENCE PICTURE FOR VIDEO CODING - In one embodiment, a method for use in encoding and decoding a group of pictures in a video stream is provided. The method identifies a current picture in the group of pictures for encoding or decoding and determines a slice type for the current picture. When the slice type for the current picture is not equal to an I-type, the method identifies a collocated reference picture in the group of pictures using a syntax to determine if a collocated reference picture index should be accessed to identify the collocated reference picture and uses the collocated reference picture to encode or decode the current picture. | 08-08-2013 |
20130215970 | METHOD AND APPARATUS FOR LAST COEFFICIENT GROUP POSITION CODING - A method, apparatus, article of manufacture, and a memory structure for encoding and decoding transform unit coefficients is disclosed. In one embodiment, the encoding of the transform unit coefficients is performed by determining a last significant subblock, wherein the last significant subblock is the last subblock along a subblock processing scan pattern that has at least one non-zero coefficient, encoding a position of the determined last significant subblock, encoding a first value for each subblock preceding the last significant subblock in the subblock processing scan pattern having at least one non-zero coefficient, and encoding the coefficients of the last significant subblock and the coefficients of the subblocks preceding the last significant subblock having the first encoded value. | 08-22-2013 |
20130216156 | METHOD AND SYSTEM FOR INTERPOLATING FRACTIONAL VIDEO PIXELS - A method and system for interpolating video pixels is described, in which the value of a first fractional pixel is calculated based on the values of the first set of integer pixels, while the value of a second fractional pixel is calculated based on the values of the second set of integer pixels. The first set of integer pixels is not equal to the second set of integer pixels. For example, the first and second set may contain different integer pixels and may contain different numbers of integer pixels. | 08-22-2013 |
20140036995 | Method and Apparatus for Selecting a Coding Mode - A method and apparatus for selecting a coding mode for a block of a current picture are disclosed. For example, the method selects a coding mode in accordance with a cost function, for coding the block, wherein the cost function comprises a coding distortion parameter and a number of coding bits parameter, wherein said coding distortion parameter is measured in accordance with at least one of: between a prediction residual and a reconstructed prediction residual, or between a transformed prediction residual and a dequantized transformed prediction residual, wherein the number of coding bits parameter is computed in accordance with at least one of: from a true number of compressed bits resulting from coding said block, directly from a plurality of bins, or directly from a plurality of quantized transform coefficients. | 02-06-2014 |
20140092956 | ADAPTIVE TRANSFORM OPTIONS FOR SCALABLE EXTENSION - In one embodiment, a method determines a first size of a first unit of video used for a prediction process in an enhancement layer. The enhancement layer is useable to enhance a base layer. The method then determines a second size of a second unit of video used for a transform process in the enhancement layer and determines whether adaptive transform is to be used in the transform process based on the first size of the first unit and the second size of the second unit where the adaptive transform provides at least three transform options. When adaptive transform is used, a transform option is selected from the at least three transform options for the transform process. | 04-03-2014 |
20140092982 | SCAN PATTERN DETERMINATION FROM BASE LAYER PIXEL INFORMATION FOR SCALABLE EXTENSION - A method determines a first unit of video in a base layer and analyzes a portion of pixels for the first unit of video in the base layer. A scan pattern for a second unit of video in an enhancement layer is determined based on the analyzing of the portion of the pixels in the base layer. The enhancement layer is useable to enhance the base layer. The method then performs a scan of the second unit of video in the selected scan pattern for a transform process in the enhancement layer. | 04-03-2014 |