Title :
Maximum-likelihood receiver for low-angle tracking radar. Part 1: The symmetric case
Author :
Haykin, S. ; Reilly, J.P.
Author_Institution :
McMaster University, Communications Research Laboratory, Hamilton, Canada
fDate :
8/1/1982 12:00:00 AM
Abstract :
A new maximum-likelihood processor is described for estimating the elevation angle of a target in the combined presence of specular multipath and receiver noise, as encountered in a low-angle tracking-radar environment. The processor makes special use of the symmetry of the incident direct and specular multipath components with respect to the normal to the receiving array. The theory of the processor is supported by both computer simulation and experimental results. The effect of deviation from perfect symmetry is also examined.
Keywords :
aerospace simulation; antenna arrays; estimation theory; radar receivers; tracking; computer simulation; linear phased-array antenna; low-angle tracking-radar; maximum likelihood estimation techniques; maximum-likelihood processor; radar receiver; receiver noise; receiving array; specular multipath; symmetric case; target elevation angle estimation;
Journal_Title :
Communications, Radar and Signal Processing, IEE Proceedings F
DOI :
10.1049/ip-f-1.1982.0039
