Adaptive equalization based on internal model principle for time-varying fading channels

Author

Naito, Takayuki ; Hidaka, Koichi ; Xin, Jingmin ; Ohmori, Hiromitsu ; Sano, Akira

Author_Institution

Keio Univ., Yokohama, Japan

fYear

2000

fDate

2000

Firstpage

363

Lastpage

368

Abstract

A novel adaptive filtering algorithm is presented to identify the time-varying parameters of an FIR channel model. The proposed weights adjusting algorithm incorporates an internal model for compensating the dynamics of the time-varying model parameters. The stability of the adaptive filter can be assured by designing the weights adjusting dynamics in the adaptive algorithm by applying the passivity theorem and the small gain theorem. Its effectiveness of the proposed LMS and RLS types of algorithms is validated by comparing to ordinary LMS approaches in numerical simulation of adaptive identification and decision-feedback equalization of a time-varying fading channel with parameters changing with a first-order function of time

Keywords

adaptive equalisers; adaptive filters; adaptive signal processing; circuit stability; decision feedback equalisers; digital radio; fading channels; identification; land mobile radio; least mean squares methods; time-varying channels; transient response; FIR channel model; LMS algorithm; RLS algorithm; adaptive algorithm; adaptive equalization; adaptive filter stability; adaptive filtering algorithm; adaptive identification; decision-feedback equalization; digital communication system; first-order function; internal model; internal model principle; mobile communication; numerical simulation; passivity theorem; small gain theorem; time-varying fading channels; time-varying model parameters; weight adjusting algorithm; weights adjusting dynamics; Adaptive algorithm; Adaptive equalizers; Adaptive filters; Algorithm design and analysis; Filtering algorithms; Finite impulse response filter; Least squares approximation; Numerical simulation; Resonance light scattering; Stability;

fLanguage

English

Publisher

ieee

Conference_Titel

Adaptive Systems for Signal Processing, Communications, and Control Symposium 2000. AS-SPCC. The IEEE 2000

Conference_Location

Lake Louise, Alta.

Print_ISBN

0-7803-5800-7

Type

conf

DOI

10.1109/ASSPCC.2000.882501

Filename

882501