Journal ArticleDOI
A framework for efficient progressive fine granularity scalable video coding
Feng Wu,Shipeng Li,Ya-Qin Zhang +2 more
Reads0
Chats0
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:Â
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
More filters
Patent
Scalable, error resilient DRM for scalable media
Bin Zhu,Chun Yuan,Shipeng Li +2 more
TL;DR: An exemplary digital rights management engine and related methods divides multimedia content into service level layers, encrypts at least some of the layers, and offers access to the encrypted layers by permission as discussed by the authors.
Journal ArticleDOI
Adaptive packet video streaming over IP networks: a cross-layer approach
TL;DR: The obtained results demonstrate, that breaking the OSI protocol layer isolation paradigm and injecting content-level semantic and service-level requirements within the transport and traffic control protocols, lead to intelligent and efficient support of multimedia services over complex network architectures.
Journal ArticleDOI
A robust fine granularity scalability using trellis-based predictive leak
TL;DR: This work proposes novel techniques to improve further the temporal prediction at the enhancement layer so that coding efficiency is superior to the existing MPEG-4 fine granularity scalability (FGS) profile.
Journal ArticleDOI
Seamless switching of scalable video bitstreams for efficient streaming
TL;DR: Experimental results clearly show that the proposed novel seamless switching scheme brings higher efficiency and more flexibility in video streaming.
Journal ArticleDOI
Constant quality constrained rate allocation for FGS-coded video
TL;DR: This paper proposes an optimal rate-allocation scheme for fine-granular scalability bitstreams that can achieve constant quality reconstruction of frames under a dynamic rate budget constraint and proposes a novel rate-distortion (R-D) labeling scheme to characterize the R-D relationship of the source coding process.
References
More filters
Journal ArticleDOI
Embedded image coding using zerotrees of wavelet coefficients
TL;DR: The embedded zerotree wavelet algorithm (EZW) is a simple, yet remarkably effective, image compression algorithm, having the property that the bits in the bit stream are generated in order of importance, yielding a fully embedded code.
Journal ArticleDOI
Error control and concealment for video communication: a review
Yao Wang,Qin-Fan Zhu +1 more
TL;DR: In this paper, a review of error control and concealment in video communication is presented, which are described in three categories according to the roles that the encoder and decoder play in the underlying approaches.
Proceedings ArticleDOI
Receiver-driven layered multicast
TL;DR: The RLM protocol is described, its performance is evaluated with a preliminary simulation study that characterizes user-perceived quality by assessing loss rates over multiple time scales, and the implementation of a software-based Internet video codec is discussed.
Journal ArticleDOI
Low-complexity video coding for receiver-driven layered multicast
TL;DR: A layered video compression algorithm which, when combined with RLM, provides a comprehensive solution for scalable multicast video transmission in heterogeneous networks.
Journal ArticleDOI
Error-resilient video coding in the ISO MPEG-4 standard
TL;DR: In this paper, error resilience aspects of the video coding techniques that are standardized in the ISO MPEC-4 standard are described, including resynchronization strategies, data partitioning, reversible variable length codes (VLCs), and header extension codes.