FGS Coding with Adaptive Reference for Low-Delay Applications

FGS Coding with Adaptive Reference for Low-Delay Applications

This paper presents the design of a fine granularity SNR scalable video coder for low-delay applications. Specifically, temporal prediction is introduced into the FGS layer of closed-loop P-frames. The prediction is formed adaptively from the enhancement layer reference and the base layer reference,...

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Hauptverfasser: Yiliang Bao, Karczewicz, M., Xianglin Wang, Ridge, J.
Format: Tagungsbericht
Sprache:eng
Schlagworte:
AR-FGS
Automatic voltage control
Bit rate
Decoding
drift control
FGS
leaky prediction
low-delay SNR scalability
Motion compensation
MPEG 4 Standard
Quadratic programming
Scalability
scalable video coding
Video coding
Video sharing
Videoconference
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Beschreibung
Zusammenfassung:This paper presents the design of a fine granularity SNR scalable video coder for low-delay applications. Specifically, temporal prediction is introduced into the FGS layer of closed-loop P-frames. The prediction is formed adaptively from the enhancement layer reference and the base layer reference, utilizing information coded in the base layer. This novel FGS coder can control drift that may occur due to partial decoding of the FGS layer, while at the same time achieving high coding efficiency. Effort is also spent on reducing the complexity of the new solution by using low-complexity motion compensation and by minimizing additional transform operations. With minimal increase in the complexity, the FGS coding performance of closed-loop P-frames can be improved by as much as 4.5 dB for one FGS layer on a base layer coded at QP 42.
ISSN:1522-4880
2381-8549
DOI:10.1109/ICIP.2006.312451