Low complexity neural network structure for implementing the optimum maximum-likelihood multi-user receiver in a DS-CDMA communication system

Author

Khoshbin-Ghomash, H. ; Ormondroyd, R.F. ; Dunn, R.W.

Author_Institution

Sch. of Electron. & Electr. Eng., Bath Univ., UK

Volume

2

fYear

1999

fDate

1999

Firstpage

643

Abstract

The capacity of direct-sequence code division multiple access systems is interference limited, particularly by multiple-access interference produced by other co-channel users. The optimum multi-user receiver calculates the maximum-likelihood ratio of the detected data for all users simultaneously, but it has a complexity that grows exponentially with the number of users. In this paper, a neural network approach to multi-user detection is considered. It is shown that the performance of this receiver is the same as the maximum-likelihood multi-user receiver but it has a much lower computational complexity

Keywords

Monte Carlo methods; channel capacity; cochannel interference; code division multiple access; computational complexity; land mobile radio; maximum likelihood detection; radio receivers; recurrent neural nets; spread spectrum communication; telecommunication computing; DS-CDMA communication system; co-channel users; computational complexity; direct-sequence code division multiple access systems; interference limited capacity; low complexity neural network structure; maximum-likelihood ratio; multi-user detection; multiple-access interference; optimum maximum-likelihood multi-user receiver; performance; Computational complexity; Detectors; Matched filters; Maximum likelihood detection; Maximum likelihood estimation; Multiaccess communication; Multiple access interference; Multiuser detection; Neural networks; Recurrent neural networks;

fLanguage

English

Publisher

ieee

Conference_Titel

Vehicular Technology Conference, 1999. VTC 1999 - Fall. IEEE VTS 50th

Conference_Location

Amsterdam

ISSN

1090-3038

Print_ISBN

0-7803-5435-4

Type

conf

DOI

10.1109/VETECF.1999.798408

Filename

798408