In this contribution we derive the super-trellis structure of turbo codes. We show that this structure and its associated decoding complexity depend strongly on the interleaver applied in the turbo encoder. We provide upper bounds for the super-trellis complexity. Turbo codes are usually decoded by an iterative decoding algorithm, which is suboptimum. Applying the super-trellis structure, we can optimally decode simple turbo codes and compare the associated bit-error rate results to those of iterative algorithms. Index Terms—Code trellis, iterative decoding, MLSE decoding, turbo codes
This paper compares bit versus symbol interleaving for parallel-concatenated trellis-coded turbo cod...
International audienceFor turbo code with coding rate close to one, the high puncturing rate induces...
Abstract—This correspondence concerns the performance analysis of turbo-single-parity-check (SPC) co...
By observing the structure of the decoder’s trellis a new, non-iterative turbo-decoder based on a su...
In this contribution, we provide an overview of the novel class of channel codes referred to as turb...
An optimum non-iterative turbo decoder is proposed that is highly parallelisable and out-performs th...
[[abstract]]In this paper, a general reliability-updating formula is proposed for trellis-based soft...
International audienceIt has been recently shown that a sequence of R=q(M-1) redundancy free trellis...
In this article, we design new turbo codes that can achieve near-Shannon-limit performance. The desi...
In the first part of this paper, several basic ideas that prompted the coming of turbo codes are com...
The trellis complexity of causal and noncausal interleavers are studied via the introduction of the ...
In this article, we present two versions of a simplified maximum a posteriori decoding algorithm. Th...
Recently, several groups have increased the coding gain of iteratively decoded Gallager codes (low d...
This thesis is about Turbo codes - codes constructed via parallel concatenation of two recursive con...
A low-rate turbo coding scheme based on superorthogonal convolutional encoders is examined. We analy...
This paper compares bit versus symbol interleaving for parallel-concatenated trellis-coded turbo cod...
International audienceFor turbo code with coding rate close to one, the high puncturing rate induces...
Abstract—This correspondence concerns the performance analysis of turbo-single-parity-check (SPC) co...
By observing the structure of the decoder’s trellis a new, non-iterative turbo-decoder based on a su...
In this contribution, we provide an overview of the novel class of channel codes referred to as turb...
An optimum non-iterative turbo decoder is proposed that is highly parallelisable and out-performs th...
[[abstract]]In this paper, a general reliability-updating formula is proposed for trellis-based soft...
International audienceIt has been recently shown that a sequence of R=q(M-1) redundancy free trellis...
In this article, we design new turbo codes that can achieve near-Shannon-limit performance. The desi...
In the first part of this paper, several basic ideas that prompted the coming of turbo codes are com...
The trellis complexity of causal and noncausal interleavers are studied via the introduction of the ...
In this article, we present two versions of a simplified maximum a posteriori decoding algorithm. Th...
Recently, several groups have increased the coding gain of iteratively decoded Gallager codes (low d...
This thesis is about Turbo codes - codes constructed via parallel concatenation of two recursive con...
A low-rate turbo coding scheme based on superorthogonal convolutional encoders is examined. We analy...
This paper compares bit versus symbol interleaving for parallel-concatenated trellis-coded turbo cod...
International audienceFor turbo code with coding rate close to one, the high puncturing rate induces...
Abstract—This correspondence concerns the performance analysis of turbo-single-parity-check (SPC) co...