Journal ArticleDOI
A framework for efficient progressive fine granularity scalable video coding
Feng Wu,Shipeng Li,Ya-Qin Zhang +2 more
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TLDR
Experimental results show that the PFGS framework can improve the coding efficiency up to more than 1 dB over the FGS scheme in terms of average PSNR, yet still keeps all the original properties, such as fine granularity, bandwidth adaptation, and error recovery.Abstract:
A basic framework for efficient scalable video coding, namely progressive fine granularity scalable (PFGS) video coding is proposed. Similar to the fine granularity scalable (PGS) video coding in MPEG-4, the PFGS framework has all the features of FGS, such as fine granularity bit-rate scalability, channel adaptation, and error recovery. On the other hand, different from the PGS coding, the PFGS framework uses multiple layers of references with increasing quality to make motion prediction more accurate for improved video-coding efficiency. However, using multiple layers of references with different quality also introduces several issues. First, extra frame buffers are needed for storing the multiple reconstructed reference layers. This would increase the memory cost and computational complexity of the PFGS scheme. Based on the basic framework, a simplified and efficient PFGS framework is further proposed. The simplified PPGS framework needs only one extra frame buffer with almost the same coding efficiency as in the original framework. Second, there might be undesirable increase and fluctuation of the coefficients to be coded when switching from a low-quality reference to a high-quality one, which could partially offset the advantage of using a high-quality reference. A further improved PFGS scheme can eliminate the fluctuation of enhancement-layer coefficients when switching references by always using only one high-quality prediction reference for all enhancement layers. Experimental results show that the PFGS framework can improve the coding efficiency up to more than 1 dB over the FGS scheme in terms of average PSNR, yet still keeps all the original properties, such as fine granularity, bandwidth adaptation, and error recovery. A simple simulation of transmitting the PFGS video over a wireless channel further confirms the error robustness of the PFGS scheme, although the advantages of PFGS have not been fully exploited.read more
Citations
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Journal ArticleDOI
Efficiency of Dynamic GOP Length in Video Stream
TL;DR: This paper investigates the performance of multi-path video streaming using a multiple description coding (MDC) technique, especially the impacts of several codec variables, such as different lengths of the Group of Pictures (GOP), and the different startup times of I-frame in each independent MDC sub-streams.
Proceedings ArticleDOI
An Algorithm of Adaptive Video Coding Scheme Based on FGS
Yang Jie,Wang Kecheng,Chen De +2 more
TL;DR: An improved fine granular adaptive video coding algorithm based onfine granular scalable (FGS) is presented in this paper, which chooses high quality reference in enhancement layer coding, and uses the leaky prediction techniques which can control error propagation by the leaksy factor.
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Algorithms for scalable and network-adaptive video coding and transmission
Antonio Ortega,Huisheng Wang +1 more
TL;DR: A novel scalable coding approach is proposed by introducing distributed source coding in enhancement layer prediction in order to achieve a better coding performance with reasonable encoding complexity.
Proceedings ArticleDOI
Resource Allocation for Multicast Services with Joint FGS Video Coding and UEP RS Coding Scheme in Single Frequency Networks
Lei Chen,Xiaoxiang Wang +1 more
TL;DR: An optimal resource allocation algorithm by exploiting layered coding combined with erasure correction coding for multicast services in the downlink of OFDMA-based single frequency networks (SFN) significantly outperform conventional multicast scheme (CMS).
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Journal ArticleDOI
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