FOCS '02 Proceedings of the 43rd Symposium on Foundations of Computer Science
Optimal bit allocation under multiple rate constraints
DCC '96 Proceedings of the Conference on Data Compression
A Low-Complexity Modeling Approach for Embedded Coding of Wavelet Coefficients
DCC '98 Proceedings of the Conference on Data Compression
Compression with Side Information Using Turbo Codes
DCC '02 Proceedings of the Data Compression Conference
IEEE/ACM Transactions on Networking (TON) - Special issue on networking and information theory
Distributed Video Coding Using JPEG 2000 Coding Scheme
IEICE Transactions on Fundamentals of Electronics, Communications and Computer Sciences
On Compression of Encrypted Video
DCC '07 Proceedings of the 2007 Data Compression Conference
Remote interactive browsing of video surveillance content based on JPEG 2000
IEEE Transactions on Circuits and Systems for Video Technology
Good error-correcting codes based on very sparse matrices
IEEE Transactions on Information Theory
Factor graphs and the sum-product algorithm
IEEE Transactions on Information Theory
The capacity of low-density parity-check codes under message-passing decoding
IEEE Transactions on Information Theory
Explicit construction of families of LDPC codes with no 4-cycles
IEEE Transactions on Information Theory
Low-complexity video coding for receiver-driven layered multicast
IEEE Journal on Selected Areas in Communications
High performance scalable image compression with EBCOT
IEEE Transactions on Image Processing
Distributed video coding: trends and perspectives
Journal on Image and Video Processing - Special issue on distributed video coding
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This paper envisions coding with side information to design a highly scalable video codec. To achieve fine-grained scalability in terms of resolution, quality, and spatial access as well as temporal access to individual frames, the JPEG 2000 coding algorithm has been considered as the reference algorithm to encode INTRA information, and coding with side information has been envisioned to refresh the blocks that change between two consecutive images of a video sequence. One advantage of coding with side information compared to conventional closed-loop hybrid video coding schemes lies in the fact that parity bits are designed to correct stochastic errors and not to encode deterministic prediction errors. This enables the codec to support some desynchronization between the encoder and the decoder, which is particularly helpful to adapt on the fly pre-encoded content to fluctuating network resources and/or user preferences in terms of regions of interest. Regarding the coding scheme itself, to preserve both quality scalability and compliance to the JPEG 2000 wavelet representation, a particular attention has been devoted to the definition of a practical coding framework able to exploit not only the temporal but also spatial correlation among wavelet subbands coefficients, while computing the parity bits on subsets of wavelet bit-planes. Simulations have shown that compared to pure INTRA-based conditional replenishment solutions, the addition of the parity bits option decreases the transmission cost in terms of bandwidth, while preserving access flexibility.