[[abstract]]In this letter, we present a trellis-based maximum-likelihood soft-decision sequential decoding algorithm (MLSDA) for binary convolutional codes. Simulation results show that, for (2, 1, 6) and (2, 1, 16) codes antipodally transmitted over the AWGN channel, the average computational effort required by the algorithm is several orders of magnitude less than that of the Viterbi algorithm. Also shown via simulations upon the same system models is that, under moderate SNR, the algorithm is about four times faster than the conventional sequential decoding algorithm (i.e., stack algorithm with Fano metric) having comparable bit-error probability.[[note]]SC
Sequential decoding can achieve a very low computational complexity and short decoding delay when th...
International audienceMaximum likelihood soft decision decoding of linear block codes is addressed i...
To communicate reliably over noisy wireline or wireless channels, algorithms that add redundancy are...
[[abstract]]In this letter, we present a trellis-based maximum-likelihood soft-decision sequential d...
This article surveys many variants of sequential decoding in literature. Rather than introducing the...
The maximum-likelihood decoding of convolutional codes has generally been considered impractical for...
Two efficient, maximum likelihood, soft decision decoding algorithms for binary (linear) codes are d...
We propose new decoding algorithms to be embedded in the iterative decoding strategy of parallel con...
A new approach to soft decision decoding of block codes and concatenated block-convolutional codes i...
Two new implementations of a maximum-likelihood soft-decision decoding algorithm for binary linear c...
Reed Solomon codes, a subset of multi-level cyclic block codes with, powerful error-correcting capab...
Decoding using the dual trellis is considered as a potential technique to increase the throughput of...
International audiencePresented is a soft-decision decoding algorithm for a particular class of rate...
Reed-Solomon codes (RS codes) are an important method for achieving error-correction in communicatio...
This thesis is concerned with the area of decoding techniques of concatenated, error correcting code...
Sequential decoding can achieve a very low computational complexity and short decoding delay when th...
International audienceMaximum likelihood soft decision decoding of linear block codes is addressed i...
To communicate reliably over noisy wireline or wireless channels, algorithms that add redundancy are...
[[abstract]]In this letter, we present a trellis-based maximum-likelihood soft-decision sequential d...
This article surveys many variants of sequential decoding in literature. Rather than introducing the...
The maximum-likelihood decoding of convolutional codes has generally been considered impractical for...
Two efficient, maximum likelihood, soft decision decoding algorithms for binary (linear) codes are d...
We propose new decoding algorithms to be embedded in the iterative decoding strategy of parallel con...
A new approach to soft decision decoding of block codes and concatenated block-convolutional codes i...
Two new implementations of a maximum-likelihood soft-decision decoding algorithm for binary linear c...
Reed Solomon codes, a subset of multi-level cyclic block codes with, powerful error-correcting capab...
Decoding using the dual trellis is considered as a potential technique to increase the throughput of...
International audiencePresented is a soft-decision decoding algorithm for a particular class of rate...
Reed-Solomon codes (RS codes) are an important method for achieving error-correction in communicatio...
This thesis is concerned with the area of decoding techniques of concatenated, error correcting code...
Sequential decoding can achieve a very low computational complexity and short decoding delay when th...
International audienceMaximum likelihood soft decision decoding of linear block codes is addressed i...
To communicate reliably over noisy wireline or wireless channels, algorithms that add redundancy are...