Title :
Adaptive multiuser bootstrapped decorrelating CDMA detector in asynchronous unknown channels
Author :
Bar-Ness, Y. ; Chen, D.W. ; Siveski, Z.
Abstract :
For personal, indoor, and mobile wireless radio communications (PIMRC) uplink multiuser CDMA channels, received signals are time asynchronous, and suffer from amplitude fading. The relative signals´ bit delays, energy variations, and hence the cross-correlation matrix of the received signal, are unknown. Using a novel adaptive algorithm, we propose in this paper a decorrelating detector suitable for particular CDMA uplink channels. The proposed asynchronous CDMA adaptive decorrelator consists of a bank of matched filters (matched to the users´ signature sequences), followed by a sampler at the bit-rate of 1/T and controllable weights. It is near-far resistant, and can be used by itself if signal-to-noise ratios are high, or as a first stage in the two-stage adaptive canceller previously proposed for the synchronous CDMA case
Keywords :
adaptive signal detection; band-pass filters; code division multiple access; correlation methods; fading; filtering theory; indoor radio; matched filters; personal communication networks; radio links; signal sampling; telecommunication channels; CDMA uplink channels; PIMRC uplink multiuser CDMA channels; adaptive algorithm; adaptive multiuser bootstrapped detector; amplitude fading; asynchronous unknown channels; bit delays; cross-correlation matrix; decorrelating CDMA detector; energy variations; filter bank; indoor radio communications; matched filters; mobile wireless radio communications; near-far resistant detector; personal radio communications; received signals; sampler; signal-to-noise ratios; signature sequences; time asynchronous signals; two-stage adaptive canceller; Adaptive algorithm; Adaptive control; Decorrelation; Delay; Detectors; Fading; Multiaccess communication; Programmable control; Radio communication; Wireless communication;
Conference_Titel :
Personal, Indoor and Mobile Radio Communications, 1994. Wireless Networks - Catching the Mobile Future., 5th IEEE International Symposium on
Conference_Location :
The Hague
Print_ISBN :
90-5199-193-2
DOI :
10.1109/WNCMF.1994.529147
