Rekkal Kahina scite author profile

An efficient Viterbi decoder is introduced in this paper; it is called Viterbi decoder with window system. The simulation results, over Gaussian channels, are performed from rate 1/2, 1/3 and 2/3 joined to TCM encoder with memory in order of 2, 3. These results show that the proposed scheme outperforms the classical Viterbi by a gain of 1 dB. On the other hand, we propose a function called RSCPOLY2TRELLIS, for recursive systematic convolutional (RSC) encoder which creates the trellis structure of a recursive systematic convolutional encoder from the matrix “H”. Moreover, we present a comparison between the decoding algorithms of the TCM encoder like Viterbi soft and hard, and the variants of the MAP decoder known as BCJR or forward-backward algorithm which is very performant in decoding TCM, but depends on the size of the code, the memory, and the CPU requirements of the application.

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Improving the Performance of Trellis Coded Modulation Over Rayleigh Fading Channel Using Locally Rotated Constellations

Kahina

Bassou

2018

IRECAP

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Search and Substitution of Web Services Operations: Composition and Matching Techniques

Sara

Kahina

Bakhta

2019

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A Genetic Algorithm for Optimizing TCM Encoder

Kahina¹,

Bassou²

2017

ijacsa

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Abstract-This article describes a genetic algorithm for the optimization of the Trellis Coded Modulation (TCM) schemes with a view to achieve a higher performance in the multipath fading channel. The use of genetic algorithms is motivated by the fact that they are capable of performing global searches to retrieve an approximate solution to an optimization problem and if the solution is unknown to provide one within a reasonable time lapse. The TCM schemes are indeed optimized by the Rouane and Costello algorithm but the latter has as major disadvantage high requirements in both computation time and memory storage. This is further exacerbated by an increase in the encoder rate, the number of memory piles and the depth of the trellis. We describe a genetic algorithm which is especially well suited to combinatorial optimization, in particular to the optimization of NP-complete problems for which the computation time grows with the complexity of the problem, in a non-polynomial way. Furthermore this opens up the possibility of using the method for the generation of codes for channel characteristics for which no optimization codes are yet known. Simulation results are presented, that show the evolutionary programming algorithm on several generations of populations which only exhibit a medium probability of exchanging genetic information.

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Rekkal Kahina

A PAPR reduction for STBC MIMO-OFDM systems in 4G wireless communications using PTS scheme

Improving the Performance of Viterbi Decoder using Window System

Improving the Performance of Trellis Coded Modulation Over Rayleigh Fading Channel Using Locally Rotated Constellations

Search and Substitution of Web Services Operations: Composition and Matching Techniques

A Genetic Algorithm for Optimizing TCM Encoder

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