Optimal symbol-by-symbol detector for linear dispersive AWGN channels
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IEEE
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info:eu-repo/semantics/closedAccess
Abstract
In this study, symbol detection in the presence of intersymbol interference and additive white Gaussian noise is considered. The optimal solution, in the sense of minimizing the symbol error, is obtained through the Bayes decision theory. It is shown that the optimal Bayesian detector has two different but equivalent realizations in the form of a multi-layer perceptron and a radial basis function network. The parameters of these networks can be optimally set if the channel characteristics are known. For unknown channel cases, a simple adaptive structure, which employs a channel estimator, is proposed.
Description
Proceedings of the 7th Mediterranean Electrotechnical Conference - MELECON. Part 1 (of 3) --
Keywords
Codes (symbols), Communication channels (information theory), Decision theory, Detectors, Frequency response, Neural networks, Optimization, White noise, Additive white Gaussian noise, Bayes decision theory, Channel estimator, Equivalent realizations, Linear dispersive channels, Multilayer perceptron, Optimal symbol to symbol detector, Radial basis function network, Symbol error, Signal detection
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1
