This letter presents some theorems for the exact and pth-order equalization of nonlinear systems described by recursive polynomial input-output relationships. It is shown that the nonlinear equalizers derived on the basis of this theory have simple and computationally efficient structures. Furthermore, the pth-order equalizers can be shown to operate in a stable manner for a finite range of values of the input amplitude when the linear component of the nonlinear system being equalized has minimum phase properties.
Equalization of recursive polynomial systems / Carini, A.; Mathews, V. J.; Sicuranza, Giovanni. - In: IEEE SIGNAL PROCESSING LETTERS. - ISSN 1070-9908. - 6:(1999), pp. 312-314. [10.1109/97.803432]
Equalization of recursive polynomial systems
A. CARINI;SICURANZA, GIOVANNI
1999-01-01
Abstract
This letter presents some theorems for the exact and pth-order equalization of nonlinear systems described by recursive polynomial input-output relationships. It is shown that the nonlinear equalizers derived on the basis of this theory have simple and computationally efficient structures. Furthermore, the pth-order equalizers can be shown to operate in a stable manner for a finite range of values of the input amplitude when the linear component of the nonlinear system being equalized has minimum phase properties.Pubblicazioni consigliate
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