This TE will be coordinated by Ken McCann (Zetacast). It will include investigation of coding tools currently in the TMuC.
Several other TEs overlap with TE 12. To avoid duplication of efforts, the TE coordinators should take responsibility to coordinate the work of their TEs with the work on TE12.
9Establishment of ad hoc groups
The ad hoc groups established to progress work on particular subject areas until the next meeting are described in the table below.
Title and Email Reflector
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Chairs
|
Mtg
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JCT-VC project management
(jct-vc@lists.rwth-aachen.de)
-
Coordinate overall JCT-VC interim efforts
-
Report on project status to JCT-VC reflector
-
Provide report to next meeting on project coordination status
|
Gary Sullivan, Jens-Rainer Ohm (co chairs)
|
N
|
Test Model under Consideration (TMuC) editing
(jct-vc@lists.rwth-aachen.de)
-
Discuss JCTVC-B205 and perform editorial improvements as appropriate
-
Produce JCTVC-B204 encoding and tutorial information corresponding to JCTVC-B205
|
K. McCann (chair), M. Karczewicz, J. Ridge, S. Sekiguchi, T. Wedi, T. Wiegand (vice chairs)
|
N
|
Software development and TMuC software technical evaluation
(jct-vc@lists.rwth-aachen.de)
-
Coordinate development of the TMuC software and its distribution to JCTVC members
-
Produce documentation of software usage for distribution with the software
-
Deliver TMuC 0.6 and the reference configuration encodings according to JCTVC-B300 for use in common conditions experiments
-
Complete the integration of the remaining elements of the TMuC design into the software according to the assigned priorities
-
Improve the configurability of the software
|
F. Bossen (chair),
P. Chen, D. Flynn, W.-J. Han, K. Sühring, H. Schwarz, K. Ugur (vice chairs)
|
N
|
Alternative transforms
(jct-vc@lists.rwth-aachen.de)
-
Study the transforms in the TMuC design, including compression performance, computational complexity, dynamic range, storage requirements, etc.
-
Identify trade-offs of transform characteristics and potential opportunities for simplification of transforms and for reduction in the number of needed transforms
-
Define and conduct experiments related to using alternative, adaptive, mode-dependent directional, and directional transforms for coding Intra and Inter prediction residuals
-
Report the results and conclusions of these experiments to the JCT
|
R. Cohen, R. Joshi (co-chairs)
|
N
|
In-loop and post-processing filtering
(jct-vc@lists.rwth-aachen.de)
-
Study enhancement schemes of in-loop filtering, including de-blocking/de-banding/de-noising filters, and adaptive Wiener-based filters including variants with various inputs, combination of filters
-
Study trade-offs and characteristics of filter designs including complexity and subjective and objective performance
-
Discuss relationships and evaluation procedures for the filtering techniques
-
Identify possibilities for harmonization of enhanced in-loop filtering technologies
-
Study the relationship between in-loop and post-processing filtering
|
T. Yamakage (chair),
Y. J. Chiu, M. Karczewicz, M. Narroschke (vice chairs)
|
N
|
Large block structures
(jct-vc@lists.rwth-aachen.de)
-
Study and compare techniques relating to coding block structure
-
Characterize the trade-offs involved in coding block structure issues, including complexity and compression performance aspects
-
Identify opportunities for harmonization and simplification of coding block structure
|
K. Panusopone (chair), M. Budagavi, W.-J. Han, D. He (vice chairs)
|
N
|
Memory compression
(jct-vc@lists.rwth-aachen.de)
-
Study memory compression impact on video encoder and decoder: memory bandwidth reduction, graceful power degradation, etc.
-
Study memory compression schemes including adaptive scaling, DPCM, transform coding, entropy coding, checkerboard sampling, etc.
|
K. Chono (chair),
T. Chujoh, C.S. Lim (vice chairs)
|
N
|
Parallel entropy coding
(jct-vc@lists.rwth-aachen.de)
-
Study the merits of various approaches for slice level parallelism
-
Study PIPE/V2V, parallel context processing, syntax-element partitioning, and other parallelism approaches
-
Study and develop approaches for hardware and software evaluation of parallel entropy coding at the bin level
-
Raise and discuss additional issues on parallel entropy coding
|
M. Budagavi (chair),
D. He, A. Segall (vice chairs)
|
N
|
Screen content coding
(jct-vc@lists.rwth-aachen.de)
-
Identify and describe use case scenarios including non-camera-view content
-
Investigate and collect appropriate test material including computer screen captures, mixed video and graphics, animated graphics, game content, CAD video, news content, text overlays, etc.
-
Identify potential needs for action in HEVC standardization
|
J. Xu, W. Ding (co chairs)
|
N
|
Complexity assessment
(jct-vc@lists.rwth-aachen.de)
-
Investigate measurement criteria to assess the complexity of encoder and decoder algorithmic design elements, including computational complexity, parallelism, memory bandwidth, memory capacity, dynamic range requirements, etc.
-
Identify and recommend tools for algorithmic complexity assessment
|
D. Alfonso (chair),
J. Ridge, X. Wen (vice chairs)
|
N
|
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