The authors investigate the occurrence of chaotic phenomena in blind equalisers adapted by the constant modulus algorithm (CMA). It is shown that periodic and chaotic behaviour may take place during the update of the coefficients of the equaliser, for certain values of the adaptation step size, in both deterministic and stochastic versions of the algorithm. To study the stochastic CMA, an original theoretical framework is proposed, founded on a Markov chain-based modelling of the algorithm. The results reveal important features of the most useful technique for non-supervised equalisation. As far as is known, such convergence issues have not been properly explored in previous work.150636036
International audienceIn this paper, new decision directed algorithms for blind equalization of comm...
In this work, a new algorithm, based on the minimum-disturbance principle with relaxation, is presen...
Adaptive channel equalization without resorting to a training sequence is often referred to as blind...
[[abstract]]A blind equalisation technique based on an improved constant modulus adaptive (CMA) algo...
In chaotic communications, an ideal channel is often assumed. In practice, channel distortion is ine...
[[abstract]]A blind equalisation technique based on an improved constant modulus adaptive (CMA) algo...
A general problem with blind adaptation techniques is that they have poor convergence properties com...
We show that the most widely used blind equalization algorithm, the constant modulus algorithm, CMA,...
This paper analyzes the convergence of the constant modulus algorithm (CMA) in a decision feedback e...
This paper studies the behavior of the error sequence of stop-anti-go variants of two adaptive blind...
Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)Conselho Nacional de Desenvolvime...
The cost of laying optical fiber to the home means that digital transmission using copper twisted pa...
A new constant modulus algorithm and two of its variants are presented for blind equalisation of com...
We examine the use of a blind adaptive “pre-whitening” filter to precede an equalizer adapted by the...
We study the local minima relocation of the fractionally spaced constant modulus algorithm (FSE-CMA)...
International audienceIn this paper, new decision directed algorithms for blind equalization of comm...
In this work, a new algorithm, based on the minimum-disturbance principle with relaxation, is presen...
Adaptive channel equalization without resorting to a training sequence is often referred to as blind...
[[abstract]]A blind equalisation technique based on an improved constant modulus adaptive (CMA) algo...
In chaotic communications, an ideal channel is often assumed. In practice, channel distortion is ine...
[[abstract]]A blind equalisation technique based on an improved constant modulus adaptive (CMA) algo...
A general problem with blind adaptation techniques is that they have poor convergence properties com...
We show that the most widely used blind equalization algorithm, the constant modulus algorithm, CMA,...
This paper analyzes the convergence of the constant modulus algorithm (CMA) in a decision feedback e...
This paper studies the behavior of the error sequence of stop-anti-go variants of two adaptive blind...
Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)Conselho Nacional de Desenvolvime...
The cost of laying optical fiber to the home means that digital transmission using copper twisted pa...
A new constant modulus algorithm and two of its variants are presented for blind equalisation of com...
We examine the use of a blind adaptive “pre-whitening” filter to precede an equalizer adapted by the...
We study the local minima relocation of the fractionally spaced constant modulus algorithm (FSE-CMA)...
International audienceIn this paper, new decision directed algorithms for blind equalization of comm...
In this work, a new algorithm, based on the minimum-disturbance principle with relaxation, is presen...
Adaptive channel equalization without resorting to a training sequence is often referred to as blind...