This paper presents two new iterative algorithms for decoding linear codes based on their tail biting trellises, one is unidirectional and the other is bidirectional. Both algorithms are computationally efficient and achieves virtually optimum error performance with a small number of decoding iterations. They outperform all the previous suboptimal decoding algorithms. The bidirectional algorithm also reduces decoding delay. Also presented in the paper is a method for constructing tail biting trellises for linear block codes
In principle, the coding gain of a digital communications system can be improved through the use of ...
Abstract: We investigate the constructions of tail-biting trellises for linear block codes introduce...
This paper investigates tail-biting trellis realizations for linear block codes. Intrinsic trellis p...
We look at graphical descriptions of block codes known as trellises, which illustrate connections be...
We look at graphical descriptions of block codes known as trellises, which illustrate connections be...
In this paper, we present new ways of describing and constructing linear tail-biting trellises for b...
A maximum likelihood decoding algorithm is presented for tailbiting trellises for block codes. The a...
A maximum likelihood decoding algorithm is presented for tailbiting trellises for block codes. The a...
Tailbiting trellis representations of linear block codes with an arbitrary sectionalization of the t...
A linear time approximate maximum likelihood decoding algorithm on tail-biting trellises is presente...
Soft-input/soft-output symbol decoding plays a significant role in iterative decoding. We propose a ...
Block codes are viewed from a formal language theoretic perspective. It is shown that properties of ...
A new adaptive trellis decoding technique for block codes is proposed. The technique is based on an ...
A code trellis is a graphical representation of a code, block or convolutional, in which every path ...
AbstractBlock codes are viewed from a formal language theoretic perspective. It is shown that proper...
In principle, the coding gain of a digital communications system can be improved through the use of ...
Abstract: We investigate the constructions of tail-biting trellises for linear block codes introduce...
This paper investigates tail-biting trellis realizations for linear block codes. Intrinsic trellis p...
We look at graphical descriptions of block codes known as trellises, which illustrate connections be...
We look at graphical descriptions of block codes known as trellises, which illustrate connections be...
In this paper, we present new ways of describing and constructing linear tail-biting trellises for b...
A maximum likelihood decoding algorithm is presented for tailbiting trellises for block codes. The a...
A maximum likelihood decoding algorithm is presented for tailbiting trellises for block codes. The a...
Tailbiting trellis representations of linear block codes with an arbitrary sectionalization of the t...
A linear time approximate maximum likelihood decoding algorithm on tail-biting trellises is presente...
Soft-input/soft-output symbol decoding plays a significant role in iterative decoding. We propose a ...
Block codes are viewed from a formal language theoretic perspective. It is shown that properties of ...
A new adaptive trellis decoding technique for block codes is proposed. The technique is based on an ...
A code trellis is a graphical representation of a code, block or convolutional, in which every path ...
AbstractBlock codes are viewed from a formal language theoretic perspective. It is shown that proper...
In principle, the coding gain of a digital communications system can be improved through the use of ...
Abstract: We investigate the constructions of tail-biting trellises for linear block codes introduce...
This paper investigates tail-biting trellis realizations for linear block codes. Intrinsic trellis p...