5.1.73D-AVC-CE7: RD optimization through view synthesis distortion
m23623
Lu Yu, Deliang Fu
3D-AVC-CE7 summary report
m23627
Deliang Fu, Lu Yu
3D-AVC-CE7 results on: Joint RDO for depth coding of 3D video by ZJU
m23662
Byung Tae Oh, Jaejoon Lee, Du Sik Park
3D-AVC-CE7 results on Samsung's new distortion function for R-D mode decision
m23674
HoCheon Wey, Jaejoon Lee, Du Sik Park
Cross check of 3D-AVC-CE7 Zhejiang Univ.’s joint RDO by Samsung
m23776
Dong Tian, Anthony Vetro
Cross-check 3D-AVC-CE07 report on ZJU's proposal for joint rate distortion optimization
m23839
Peng Lv, Yin Zhao
Cross check of 3D-AVC-CE7 Samsung’s new distortion function for R-D mode decision by ZJU
Summary report:
There were 2 proposals for non-normative RD optimization. Considering view synthesis distortion, both proposals are similar in concept with gains in the range of 5-6% on average.
Cross-checks reported matched coding results, but with some mismatches in rendering results.
The CE report recommended combining proposals and resolving mismatches during the meeting.
The two approaches were harmonized during the week to achieve 6% bit rate savings. Adoption into the ATM software was recommended. It would be of interest to harmonize with HEVC-based software, but this is not required and is planned only if someone volunteers to do so. It was recommended to turn on Depth RDO for common test conditions.
Conclusions:
Include harmonized approach in ATM, based on m23627 and m23662 (non-normative).
