Title :
Adaptive array processing MLSE receivers for TDMA digital cellular/PCS communications
Author :
Molnar, Karl J. ; Bottomley, Gregory E.
Author_Institution :
Ericsson Inc., Research Triangle Park, NC, USA
fDate :
10/1/1998 12:00:00 AM
Abstract :
Array processing is a promising approach for improving quality, coverage, and capacity in digital cellular communication systems. By combining array processing with maximum likelihood sequence estimation (MLSE), intersymbol interference (ISI) introduced by multipath propagation can be mitigated as well. Novel symbol-spaced and fractionally spaced adaptive array processing MLSE receivers are developed for both diversity and phased array antenna configurations. The practical issues of synchronization and channel estimation are addressed. A novel approach to automatic frequency error correction (AFC) is proposed and is shown to be critical when cancelling cochannel interference. Performance is evaluated for the reverse link of the IS-136 TDMA-based digital cellular system. Substantial improvements are obtained over conventional antenna configurations for receiver sensitivity (2.5-4 dB) and over traditional antenna combining when cochannel interference is present (0.5-25 dB)
Keywords :
adaptive antenna arrays; adaptive signal processing; antenna phased arrays; array signal processing; cellular radio; cochannel interference; digital radio; direction-of-arrival estimation; diversity reception; error correction; interference suppression; intersymbol interference; maximum likelihood sequence estimation; multipath channels; personal communication networks; radio links; radio receivers; synchronisation; time division multiple access; IS-136; ISI; MLSE receivers; PCS; TDMA; antenna combining; automatic frequency error correction; capacity; channel estimation; cochannel interference cancellation; coverage; digital cellular communication systems; diversity; fractionally spaced adaptive array processing; intersymbol interference; maximum likelihood sequence estimation; multipath propagation; performance evaluation; phased array antenna; quality; receiver sensitivity; reverse link; symbol-spaced adaptive array processing; synchronization; Adaptive arrays; Array signal processing; Automatic frequency control; Diversity reception; Interchannel interference; Intersymbol interference; Maximum likelihood estimation; Phased arrays; Receiving antennas; Time division multiple access;
Journal_Title :
Selected Areas in Communications, IEEE Journal on
