DocumentCode
2958928
Title
On robust multiuser detection
Author
Vikalo, Haris ; Hassibi, Babak ; Kailath, Thomas
Author_Institution
Inf. Syst. Lab., Stanford Univ., CA, USA
Volume
2
fYear
2000
fDate
Oct. 29 2000-Nov. 1 2000
Firstpage
1168
Abstract
We study the design of multiuser detectors from an H/sup /spl infin// point of view. The H/sup /spl infin// approach is most appropriate in the situations where the statistical properties of the disturbances are not known or are too hard to model and analyze. The design of the H/sup /spl infin// optimal FIR multiuser detectors can be efficiently performed using numerical methods. Exploiting the inherent non-uniqueness of the H/sup /spl infin// solution, we additionally optimize for an average performance thus obtaining mixed H/sup 2//H/sup /spl infin// optimal multiuser detector. Recursive solutions, allowing for computationally efficient implementation of the decision-feedback detectors, is discussed.
Keywords
H/sup /spl infin// optimisation; Rayleigh channels; feedback; multi-access systems; multiuser channels; signal detection; spread spectrum communication; transient response; H/sup /spl infin// optimal FIR multiuser detectors; average performance; computationally efficient implementation; decision-feedback detectors; disturbances; frequency selective Rayleigh fading; mixed H/sup 2//H/sup /spl infin// optimal multiuser detector; multiple-access interference; multiple-access system; multiuser detector design; recursive solutions; robust multiuser detection; spreading sequence; statistical properties; Decorrelation; Detectors; Filtering; Finite impulse response filter; Hydrogen; Kalman filters; Multiple access interference; Multiuser detection; Robustness; Signal to noise ratio;
fLanguage
English
Publisher
ieee
Conference_Titel
Signals, Systems and Computers, 2000. Conference Record of the Thirty-Fourth Asilomar Conference on
Conference_Location
Pacific Grove, CA, USA
ISSN
1058-6393
Print_ISBN
0-7803-6514-3
Type
conf
DOI
10.1109/ACSSC.2000.910698
Filename
910698
Link To Document