Distributed Arithmetic Coding (DAC) is an effective technique for implementing Slepian-Wolf coding (SWC). It has been shown that a DAC code partitions source space into unequal-size codebooks, so that the overall performance of DAC codes depends on the cardinality and structure of these codebooks. The problem of DAC codebook cardinality has been solved by the so-called Codebook Cardinality Spectrum (CCS). This paper extends the previous work on CCS by studying the problem of DAC codebook structure.We define Hamming Distance Spectrum (HDS) to describe DAC codebook structure and propose a mathematical method to calculate the HDS of DAC codes. The theoretical analyses are verified by experimental results
Equal-length linear binary block error-control codes with disjoint codebooks and mutual Hamming dist...
Error correcting codes used for Distributed Source Coding (DSC) generally assume a random distributi...
The focus of this thesis is on proposing and analyzing a powerful class of codes on graphs---with tr...
Distributed Arithmetic Coding (DAC) is an effective technique for implementing Slepian-Wolf coding (...
Distributed Arithmetic Coding (DAC) is a variant of Arithmetic Coding (AC) that can realise Slepian-...
It was demonstrated that, as a nonlinear implementation of Slepian-Wolf Coding, Distributed Arithmet...
Distributed source coding (DSC) is a fundamental concept in information theory. It refers to distrib...
International audienceIn joint source-channel arithmetic coding (JSCAC) schemes, additional redundan...
The research work is partially funded by the Strategic Educational Pathways Scholarship Scheme (STEP...
Abstract: Minimum Hamming distance, dm, has been widely used as the yardstick for the performance of...
International audienceThe class of variable-length finite-state joint source-channel codes is define...
We partition permutation sequences into groups to form permutation codes for multiuser communication...
International audienceThis paper presents an efficient MAP estimator for the joint source-channel de...
We address distributed source coding with decoder side information, when the decoder observes the so...
This thesis concerns predicting the finite-length error-correcting performance of spatially-coupled ...
Equal-length linear binary block error-control codes with disjoint codebooks and mutual Hamming dist...
Error correcting codes used for Distributed Source Coding (DSC) generally assume a random distributi...
The focus of this thesis is on proposing and analyzing a powerful class of codes on graphs---with tr...
Distributed Arithmetic Coding (DAC) is an effective technique for implementing Slepian-Wolf coding (...
Distributed Arithmetic Coding (DAC) is a variant of Arithmetic Coding (AC) that can realise Slepian-...
It was demonstrated that, as a nonlinear implementation of Slepian-Wolf Coding, Distributed Arithmet...
Distributed source coding (DSC) is a fundamental concept in information theory. It refers to distrib...
International audienceIn joint source-channel arithmetic coding (JSCAC) schemes, additional redundan...
The research work is partially funded by the Strategic Educational Pathways Scholarship Scheme (STEP...
Abstract: Minimum Hamming distance, dm, has been widely used as the yardstick for the performance of...
International audienceThe class of variable-length finite-state joint source-channel codes is define...
We partition permutation sequences into groups to form permutation codes for multiuser communication...
International audienceThis paper presents an efficient MAP estimator for the joint source-channel de...
We address distributed source coding with decoder side information, when the decoder observes the so...
This thesis concerns predicting the finite-length error-correcting performance of spatially-coupled ...
Equal-length linear binary block error-control codes with disjoint codebooks and mutual Hamming dist...
Error correcting codes used for Distributed Source Coding (DSC) generally assume a random distributi...
The focus of this thesis is on proposing and analyzing a powerful class of codes on graphs---with tr...