Performance Comparison of Several Non-Linear Equalizers in the Context of Mobile Telecommunications

This paper provides a comparative study of several nonlinear blind equalizers in terms of computational requirements and of the transient performance, which is the main criterion to be considered in the context of time-varying channels. Computational requirements are estimated as the number of real...

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Bibliographic Details
Published in:Information systems frontiers 2005-05, Vol.7 (2), p.113-128
Main Author: Destro-Filho, João-Batista
Format: Article
Language:English
Subjects:
Algorithms
Communications networks
Comparative analysis
Information systems
Mobile communications networks
Neural networks
Noise
Satellite communications
Simulation
Studies
Telecommunications systems
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Summary:This paper provides a comparative study of several nonlinear blind equalizers in terms of computational requirements and of the transient performance, which is the main criterion to be considered in the context of time-varying channels. Computational requirements are estimated as the number of real additions and multiplications associated with the training algorithm, whereas the transient performance is evaluated in terms of convergence time. The impact of local minima on the tracking ability is carefully evaluated, in terms of a suitable criterion proposed in the paper. Simulations involve both single-layer (linear and polynomial filters), as well as multilayer structures (radial basis function, recurrent network, multilayer perceptron). These techniques are applied to the blind equalization of mobile terrestrial and satellite channels. Guidelines are established for the choice of a suitable structure as the major trade-off to be achieved in a mobile context is between computational effort and robustness of tracking capability (with respect to local minima effects). [PUBLICATION ABSTRACT]
ISSN:1387-3326
1572-9419
DOI:10.1007/s10796-005-1473-4