Title :
GLRT signal detection performance of a synthetic array
Author :
Broumandan, Ali ; Nielsen, John ; Lachapelle, Gérard
Author_Institution :
Position Location & Navig. (PLAN) Group, Univ. of Calgary, Calgary, AB, Canada
Abstract :
A mobile station (MS) antenna is typically undergoing random spatial motion as part of the typical usage which degrades the coherency of the received signal resulting in demodulation losses. However, in a fading environment, the random motion can be constructively exploited in a generalized likelihood ratio test (GLRT) processing scheme resulting in diversity gain. The key outcome is the observation that the optimum velocity of the antenna is directly proportional to the product of the spatial coherence length and the average signal-to-noise ratio (SNR) of the antenna output. It is also shown that the performance degradation due to the unknown velocity of the moving antenna, which is jointly estimated by the GLRT scheme is negligible.
Keywords :
antenna arrays; demodulation; diversity reception; fading channels; mobile antennas; random processes; signal detection; GLRT processing scheme; GLRT signal detection performance; MS antenna; SNR; average signal-to-noise ratio; demodulation losses; diversity gain; fading environment; generalized likelihood ratio test processing scheme; mobile station antenna; optimum velocity; performance degradation; random motion; random spatial motion; received signal; spatial coherence length; synthetic array; Antennas; Arrays; Rayleigh channels; Receivers; Signal to noise ratio; Trajectory; Detection; GLRT; fading; synthetic array;
Conference_Titel :
Electrical and Computer Engineering (CCECE), 2010 23rd Canadian Conference on
Conference_Location :
Calgary, AB
Print_ISBN :
978-1-4244-5376-4
Electronic_ISBN :
0840-7789
DOI :
10.1109/CCECE.2010.5575114
