Title :
Communication channel equalization based on Levenberg-Marquardt trained artificial neural networks
Author :
Ghadjati, M. ; Moussaoui, A.K. ; Bouchemel, A.
Author_Institution :
Lab. of Electr. Eng. of Guelma (LGEG), Guelma, Algeria
Abstract :
Transmitting digital signals through frequency selective communication channel, several problems arise, such as additive noise and ISI (Inter-Symbol Interference). To compensate distortions caused by these factors and to find the original information being transmitted, equalization process is performed at the receiver. Previous authors have shown that nonlinear feed-forward equalizers based on either MLP (Multi Layer Perceptron) or RBF (Radial Basis Function) can outperform linear equalizers. In this paper, we suggest an adaptive neural network equalizer using Levenberg-Marquardt training algorithm, (MLP-LM), which considerably reduces the learning MSE (Mean Square Error) and eliminates efficiently the effects of ISI comparatively to the MLP-BP, RBF and conventional equalizers.
Keywords :
decision feedback equalisers; intersymbol interference; mean square error methods; multilayer perceptrons; neural nets; radial basis function networks; time-varying channels; Levenberg Marquardt trained artificial neural networks; adaptive neural network equalizer; additive noise; communication channel equalization; digital signals; frequency selective communication channel; intersymbol interference; mean square error; multi layer perceptron; nonlinear feedforward equalizers; radial basis function; Algorithm design and analysis; Decision feedback equalizers; Intersymbol interference; Jacobian matrices; Radial basis function networks; Training;
Conference_Titel :
Systems and Control (ICSC), 2013 3rd International Conference on
Conference_Location :
Algiers
Print_ISBN :
978-1-4799-0273-6
DOI :
10.1109/ICoSC.2013.6750957
