A Hybrid Spatial-Temporal Fine Granular Scalable Coding for Adaptive QoS Internet Video
EUROMICRO '05 Proceedings of the 31st EUROMICRO Conference on Software Engineering and Advanced Applications
A joint source and channel coding algorithm for error-resilient SPIHT-coded video bitstreams
Journal of Visual Communication and Image Representation
Content-aware scalability-type selection for rate adaptation of scalable video
EURASIP Journal on Applied Signal Processing
Scalable MPEG-4 streaming over the IPv6 mobile network environment
Computer Communications
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Video streaming is the major subject of Amendment for MPEG-4 and it is developed in response to the growing needs on a video-coding standard for the video communication. The fine-granular scalability (FGS) combined with the temporal scalability addresses a variety of challenging problems in delivering video. The FGS video encoder makes the coding mode decision based on the video content and the current available bandwidth in order to achieve higher perceptual video quality. In this paper, we develop a mode selection method to find the most suitable scalable coding mode from six coding schemes: FGS, FGST, FGS-SE, and FGST with background composition based on the contents of the video sequences.