Title :
Artificial neural networks for the generation and estimation of chaotic signals
Author :
Muller, A. ; Elmirghani, J.M.H.
Author_Institution :
Sch. of Eng., Univ. of Northumbria, Newcastle upon Tyne, UK
Abstract :
Dynamic feedback, inversion and LMS estimation have been established for the estimation of an information signal encoded onto a chaotic carrier. The poor resultant SNRsig of the recovered signal limits the applicability of these methods. Two novel chaotic coding/decoding strategies based on artificial neural networks (ANN) and radial basis functions (RBF) have been developed and the resultant performance has been assessed. The results indicate that the nonlinear predictor (ANN-RBF-NLP) offers performance independent of the channel SNR (for SNR>10 dB) and offers 4 dB improved SNRsig compared to the LMS. Pseudo-chaotic sequences generated using an ANN and estimated in a dynamic feedback manner (ANN-RBF-DF) have resulted in a system with an SNRsig that is linearly dependent on the channel SNR and offering for example 20 dB improved SNRsig compared to the LMS at a channel SNR of 40 dB
Keywords :
chaos generators; decoding; encoding; feedback; inverse problems; least mean squares methods; parameter estimation; prediction theory; radial basis function networks; sequences; ANN-RBF-DF; ANN-RBF-NLP; LMS; LMS estimation; RBF; artificial neural networks; channel SNR; chaotic carrier; chaotic coding/decoding; chaotic signals estimation; chaotic signals generation; dynamic feedback; information signal estimation; inversion; nonlinear predictor; performance; pseudo-chaotic sequences; radial basis functions; recovered signal; Additive noise; Artificial neural networks; Chaos; Chaotic communication; Dynamic programming; Least squares approximation; Modulation coding; Noise reduction; Signal generators; Signal to noise ratio;
Conference_Titel :
Global Telecommunications Conference, 1998. GLOBECOM 1998. The Bridge to Global Integration. IEEE
Conference_Location :
Sydney,NSW
Print_ISBN :
0-7803-4984-9
DOI :
10.1109/GLOCOM.1998.775977
