NAIVE—network aware Internet video encoding
MULTIMEDIA '99 Proceedings of the seventh ACM international conference on Multimedia (Part 1)
Analysis of Optimal Filter Banks for Multiple Description Coding
DCC '00 Proceedings of the Conference on Data Compression
Design of Asymmetric Multiple Description Lattice Vector Quantizers
DCC '00 Proceedings of the Conference on Data Compression
Journal of Visual Communication and Image Representation
H.264/AVC-based multiple description video coding using dynamic slice groups
Image Communication
Multiple description coding with side information: practical scheme and iterative decoding
EURASIP Journal on Advances in Signal Processing
Redundancy insertion of frame-based multiple description video codec
CCDC'09 Proceedings of the 21st annual international conference on Chinese control and decision conference
On multiple description coding of sources with memory
IEEE Transactions on Communications
N-channel asymmetric entropy-constrained multiple-description lattice vector quantization
IEEE Transactions on Information Theory
Multilple description coding for error-resilient video transmission
MIV'05 Proceedings of the 5th WSEAS international conference on Multimedia, internet & video technologies
Schemes for multiple description coding of stereoscopic video
MRCS'06 Proceedings of the 2006 international conference on Multimedia Content Representation, Classification and Security
Exploiting multiple description coding for intermediate recovery in wireless mesh networks
Journal of Network and Computer Applications
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The objective of multiple description coding (MDC) is to encode a source into two (or more) bitstreams supporting two quality levels of decoding. A high-quality reconstruction should be decodable from the two bitstreams together, while lower, but still acceptable, quality reconstructions should be decodable from either of the two individual bitstreams. This paper describes techniques for meeting MDC objectives in the framework of standard transform-based image coding through the design of pairwise transforms.