A unified approach to transform domain LMS adaptive filtering.

This paper presents a generalized structure for transfomdomain least mean square (LMS) adaptive algorithm. In this structure different transforms, including Fourier transform, can be presented and used to improve both convergence and estimation over time-domain processing. The structure is general in the sense that it uses information in successive time data blocks for each iteration in the transform domain. Further, it uses all values of the input transform to estimate each value of the desired transform. The generalized structure, therefore, accounts for non-Gaussian processes as well as processes with slowly decaying correlation functions. Previously introduced structures, such as frequency-domain LMS, are special cases of the introduced structure and they result for specific timevarying environment. These can also be special cases obtained by setting some of the structure weights to zero values prior to processing. The paper discusses the generalized structure and provides an introductory analysis to its mean square error.

Main Author: Allen, Fred D. Jr.
Other Authors: Amin, Moeness, G.
Format: Villanova Faculty Authorship
Language: English
Published: 1988
Online Access: http://ezproxy.villanova.edu/login?url=https://digital.library.villanova.edu/Item/vudl:173108