DocumentCode
1509044
Title
Narrow-band interference cancellation in spread-spectrum communication systems using chaos
Author
Fu, Yingshi ; Leung, Henry
Author_Institution
Commun. Res. Lab., McMaster Univ., Hamilton, Ont., Canada
Volume
48
Issue
7
fYear
2001
fDate
7/1/2001 12:00:00 AM
Firstpage
847
Lastpage
858
Abstract
A novel approach based on chaos theory is proposed to enhance narrow-band interference cancellation for spread spectrum communications. The method uses a chaotic system to generate binary sequences for spreading codes in a direct sequence spread spectrum system. Interference cancellation is therefore a problem of parameter estimation in chaotic noise. Because of the inherently deterministic nature of a chaotic signal, the interference cancellation capability can be improved by using a dynamic-based estimation technique called the minimum phase space volume (MPSV) method. Since the PSV complexity measure is usually a nonlinear function of the parameters, a genetic algorithm (GA) is incorporated into the MPSV method to form the GA-MPSV technique for narrow-band interference cancellation. Simulation results show that the chaotic approach consistently outperforms the conventional statistical method over a wide range of signal-to-interference ratios (SIR) in point-to-point communications, multiple user systems and multipath environments
Keywords
binary sequences; chaos; genetic algorithms; interference suppression; multi-access systems; multipath channels; multiuser channels; phase space methods; radio links; spread spectrum communication; GA-MPSV technique; PSV complexity measure; binary sequences; chaos; chaotic noise; chaotic signal; deterministic nature; direct sequence spread spectrum system; dynamic-based estimation technique; genetic algorithm; minimum phase space volume method; multipath environments; multiple user systems; narrow-band interference cancellation; parameter estimation; point-to-point communications; signal-to-interference ratio; simulation results; spread-spectrum communication systems; spreading codes; Binary sequences; Chaotic communication; Genetic algorithms; Interference cancellation; Narrowband; Noise cancellation; Parameter estimation; Phase estimation; Spread spectrum communication; Statistical analysis;
fLanguage
English
Journal_Title
Circuits and Systems I: Fundamental Theory and Applications, IEEE Transactions on
Publisher
ieee
ISSN
1057-7122
Type
jour
DOI
10.1109/81.933326
Filename
933326
Link To Document