Title :
Joint signal detection and parameter estimation in multiuser communications
Author :
Xie, Zhenhua ; Rushforth, Craig K. ; Short, Robert T. ; Moon, Todd K.
Author_Institution :
R.R. Donnelly & Sons, Lisle, IL, USA
fDate :
8/1/1993 12:00:00 AM
Abstract :
The problem of simultaneously detecting the information bits and estimating signal amplitudes and phases in a K-user asynchronous direct-sequence spread-spectrum multiple-access communication system is addressed. The joint maximum-likelihood (ML) estimator has a computational complexity that is exponential in the total number of bits transmitted and thus does not represent a practical solution to the problem. An estimator that combines a suboptimum tree-search algorithm with a recursive least-squares estimator of complex signal amplitude is considered. The complexity of this estimator is O(K2) computations per decoded bit, and its performance is very close to that of the joint ML receiver. This receiver has the advantage that the transmitted signal powers and phases are extracted from the received signal in an adaptive fashion without using a test sequence
Keywords :
computational complexity; least squares approximations; multi-access systems; parameter estimation; signal detection; spread spectrum communication; K-user asynchronous communication; computational complexity; direct-sequence spread spectrum communication; multiple-access communication; multiuser communications; parameter estimation; recursive least-squares estimator; signal amplitudes; signal detection; signal phase estimation; suboptimum tree-search algorithm; Amplitude estimation; Computational complexity; Maximum likelihood detection; Maximum likelihood estimation; Parameter estimation; Phase detection; Phase estimation; Recursive estimation; Signal detection; Spread spectrum communication;
Journal_Title :
Communications, IEEE Transactions on
