Optimal Transceiver Design via Convex Programming

Author

Luo, Xiaomei ; Wong, K.M. ; Wu, Yiqiang ; Li, Chisheng

Author_Institution

Sch. of Inf. Eng., Nanchang Univ., Nanchang

Volume

1

fYear

2006

fDate

16-20 Nov. 2006

Abstract

This paper addresses the problem of designing a multi-user single-input-single-output (SISO) communication system in the MMSE sense via modern optimization theory. In particular, the joint design of optimal transmitter/receiver (transceiver) pair under the constraints of fixed finite transmission power and the receivers employing zero-forcing equalizers is considered. We devise an alternating direction method and also establish its convergence. Our optimal MMSE transceiver design problem, the natural formulation of which turns out to be nonconvex, is eventually reformulated as (semi-definite programming) SDP subproblems whose computational complexity has been substantially decreased. Computer simulations through SeDuMi software show that the devised transceivers have much more superior mean square error performance than the existing transceivers.

Keywords

convex programming; equalisers; least mean squares methods; multi-access systems; transceivers; SISO system; SeDuMi software; alternating direction method; convex programming; mean square error performance; multiuser single-input-single-output communication; optimal MMSE transceiver design; optimal transmitter/receiver pair; optimization theory; semidefinite programming; zero-forcing equalizers; Communication systems; Computational complexity; Computer simulation; Convergence; Design optimization; Equalizers; Mean square error methods; Software performance; Transceivers; Transmitters;

fLanguage

English

Publisher

ieee

Conference_Titel

Signal Processing, 2006 8th International Conference on

Conference_Location

Beijing

Print_ISBN

0-7803-9736-3

Electronic_ISBN

0-7803-9736-3

Type

conf

DOI

10.1109/ICOSP.2006.344532

Filename

4128868