5.2.63D-HEVC-CE6: Prediction Parameters for Motion Data and Intra Prediction
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Martin Winken
3D-HEVC-CE6 Summary Report
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Fabian Jäger
3D-HEVC-CE6 Results on Forced Inheritance of Motion Parameters for Depth Coding
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G. Bang, S. Yoo, J. Nam, W. Lim, D. Sim
3D-HEVC-CE6 result on inter-component intra mode prediction
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Yoshitomo Takahashi, Teruhiko Suzuki
Cross check of 3D-HEVC-CE6 results of Samsung
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Jin Young Lee, HoCheon Wey, Jaejoon Lee, Du Sik Park
3D-HEVC-CE6 results on Samsung’s depth-block skip method using a temporal correlation of texture images
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HoCheon Wey, Jaejoon Lee, Du Sik Park
Cross Check of 3D-HEVC-CE6 ETRI’s inter-component prediction of intra prediction modes by Samsung
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Martin Winken, Heiko Schwarz, Thomas Wiegand
3D-HEVC-CE6 results on block-adaptive motion parameter inheritance by HHI
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Martin Winken
Cross check of 3D-HEVC-CE6 results of RWTH Aachen
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Gun Bang
3D-HEVC-CE6 Cross check result on Block-adaptive motion parameter inheritance
Summary report (4 proposals submitted):
HHI performed a comparison with block-adaptive motion parameter inheritance turned off for tool evaluation purposes.
RWTH described forced inheritance of motion parameters for depth coding, with some loss in BD-bit rates, and some mismatches in cross-checks.
ETRI described inter-component prediction of intra prediction modes, with performance almost identical to anchors, with minor mismatches in cross-checks.
Samsung described skipping of depth blocks (predicted from already coded depth data) based on the similarity of texture data between views, with small gains of 0.05% and 0.27% for 2 and 3-view cases.
Conclusions:
Discontinue CE
As a general design principle, parsing should not be dependent on signal processing applied to decoded pictures (see also notes for AVC-CE9).