Title :
Maximum likelihood localization of sources in noise modeled as a Cauchy process
Author :
Tsakalides, Panagiotis ; Nikias, Chrysostomos L.
Author_Institution :
Dept. of Electr. Eng., Univ. of Southern California, Los Angeles, CA, USA
Abstract :
A new robust beamformer, based on the Cauchy additive noise assumption, is introduced. The maximum likelihood approach is used for the bearing estimation of multiple sources from a set of snapshots when the interference is impulsive in nature. It is shown that the Cauchy receiver greatly outperforms the Gaussian receiver in a wide variety of non-Gaussian noise environments, and performs comparably to the Gaussian receiver when the additive noise is Gaussian. The Cramer-Rao bound on the estimation error variance is derived, and the robustness of the Cauchy beamformer in a wide range of impulsive interference environments is demonstrated via simulation experiments
Keywords :
Gaussian noise; direction-of-arrival estimation; interference (signal); maximum likelihood estimation; receivers; Cauchy additive noise assumption; Cauchy beamformer; Cauchy process; Cramer-Rao bound; DOA estimation; Gaussian additive noise; Gaussian receiver; bearing estimation; estimation error variance; impulsive interference; maximum likelihood localization; multiple sources; non-Gaussian noise environments; robust beamformer; simulation experiments; snapshots; Acoustic noise; Additive noise; Direction of arrival estimation; Gaussian noise; Interference; Maximum likelihood estimation; Narrowband; Noise robustness; Sensor arrays; Signal processing;
Conference_Titel :
Military Communications Conference, 1994. MILCOM '94. Conference Record, 1994 IEEE
Conference_Location :
Fort Monmouth, NJ
Print_ISBN :
0-7803-1828-5
DOI :
10.1109/MILCOM.1994.473897
