This paper presents a parallel computing approach that is employed to reconstruct original information bits from a non-recursive convolutional codeword in noise, with the goal of reducing the decoding latency without compromising the performance. This goal is achieved by means of cutting a received codeword into a number of sub-codewords (SCWs) and feeding them into a two-stage decoder. At the first stage, SCWs are decoded in parallel using the Viterbi algorithm or equivalently the brute force algorithm. Major challenge arises when determining the initial state of the trellis diagram for each SCW, which is uncertain except for the first one; and such results in multiple decoding outcomes for every SCW. To eliminate or more precisely exploit...
This paper outlines a novel iterative decoding technique for a rate K/N convolutional code based on ...
We present a parallel version of Viterbi's decoding procedure, for which we are able to demonstrate ...
In this article, we present two versions of a simplified maximum a posteriori decoding algorithm. Th...
This paper presents a parallel computing approach that is employed to reconstruct original informat...
A silicon efficient real-time approach to decode convolutional codes is presented. The algorithm is ...
Sequential decoding can achieve a very low computational complexity and short decoding delay when th...
A Viterbi algorithm (VA) is the optimal decoding strategy for the convolutional code. The Viterbi al...
Thesis (M.S.)--Wichita State University, College of Engineering, Dept. of Electrical Engineering and...
Convolutional Codes are used in a variety of areas from computers to communications. Ideally one sim...
We propose new decoding algorithms to be embedded in the iterative decoding strategy of parallel con...
Abstract — It is well known that convolutional codes can be optimally decoded by using the Viterbi A...
This paper considers puncturing applied to the parallel Viterbi decoding of long constraint length c...
Due to the curse of dimensionality, the training complexity of the neural network based channel-code...
International audienceIn forward error correction, convolutional turbo codes were introduced to incr...
Abstract – It is well known that convolutional codes can be optimally decoded by the Viterbi Algorit...
This paper outlines a novel iterative decoding technique for a rate K/N convolutional code based on ...
We present a parallel version of Viterbi's decoding procedure, for which we are able to demonstrate ...
In this article, we present two versions of a simplified maximum a posteriori decoding algorithm. Th...
This paper presents a parallel computing approach that is employed to reconstruct original informat...
A silicon efficient real-time approach to decode convolutional codes is presented. The algorithm is ...
Sequential decoding can achieve a very low computational complexity and short decoding delay when th...
A Viterbi algorithm (VA) is the optimal decoding strategy for the convolutional code. The Viterbi al...
Thesis (M.S.)--Wichita State University, College of Engineering, Dept. of Electrical Engineering and...
Convolutional Codes are used in a variety of areas from computers to communications. Ideally one sim...
We propose new decoding algorithms to be embedded in the iterative decoding strategy of parallel con...
Abstract — It is well known that convolutional codes can be optimally decoded by using the Viterbi A...
This paper considers puncturing applied to the parallel Viterbi decoding of long constraint length c...
Due to the curse of dimensionality, the training complexity of the neural network based channel-code...
International audienceIn forward error correction, convolutional turbo codes were introduced to incr...
Abstract – It is well known that convolutional codes can be optimally decoded by the Viterbi Algorit...
This paper outlines a novel iterative decoding technique for a rate K/N convolutional code based on ...
We present a parallel version of Viterbi's decoding procedure, for which we are able to demonstrate ...
In this article, we present two versions of a simplified maximum a posteriori decoding algorithm. Th...