Title :
Hybrid-selection/optimum combining
Author :
Winters, Jack H. ; Win, Moe Z.
Author_Institution :
AT&T Labs-Research, Middletown, NJ, USA
Abstract :
We propose and study hybrid-selection/optimum combining (H-S/OC). With this technique, L out of M diversity branches are weighted and combined to maximize the output signal-to-interference-plus-noise ratio. We first present computer simulation results for L=1, showing that selecting the antenna with the largest signal-to-interference power ratio (S/I), rather than the largest signal power, can significantly improve performance when a few strong interferers are present. Our results with equal-power interferers show that H-S/OC can greatly suppress more than L interferers when M>L. Finally, we present computer simulation results for an ANSI-136 TDMA cellular system which show a 7-fold increase in capacity for H-S/OC with L=1, M=12 or L=2, M=4. Thus, H-S/OC offers the potential for systems to operate with multiple strong cochannel interferers and obtain diversity gain with only a few receiver chains
Keywords :
ANSI standards; cellular radio; cochannel interference; diversity reception; interference suppression; multiuser channels; telecommunication standards; time division multiple access; ANSI-136; TDMA cellular system; channel capacity; cochannel interferers; computer simulation results; diversity gain; equal-power interferers; hybrid-selection/optimum combining; interference suppression; receiver chains; signal-to-interference power ratio; signal-to-interference-plus-noise ratio; weighted diversity branches; Computer simulation; Diversity methods; Diversity reception; Fading; Interchannel interference; MIMO; Radio frequency; Receiving antennas; Signal to noise ratio; Transmitting antennas;
Conference_Titel :
Vehicular Technology Conference, 2001. VTC 2001 Spring. IEEE VTS 53rd
Conference_Location :
Rhodes
Print_ISBN :
0-7803-6728-6
DOI :
10.1109/VETECS.2001.944814
