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IEEE Transactions on Communications
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Nonlinear Self-Training Adaptive Equalization for Partial-Response Systems

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Abstract

In this paper we discuss a new self-training algorithm for adaptive equalization of multilevel partial-response class-IV (PRIV) systems. Adaptive distributed-arithmetic equalizers are considered, where the process of multiplying the tap signals with tap gains and summing the resulting products is replaced by a procedure involving only table look-up and shift-and-add operations. Classical self-training adaptation schemes for linear adaptive equalizers do not converge if applied to distributed-arithmetic equalizers, because of the inherent non-linearity of the system during the adaptation process. Here we show that, by adopting a generalized stochastic gradient to adjust the look-up tables, the mean-square error converges to a value which depends on the system parameters. For practical system implementation, a two-step modified algorithm is proposed to closely approach in the steady state the minimum achievable mean-square error. Numerical results are presented for multilevel PRIV systems for high-rate data transmission over twisted-pair cables. © 1994 IEEE.

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IEEE Transactions on Communications

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