Title :
A Bayesian approach to robust adaptive beamforming
Author :
Bell, Kristine L. ; Ephraim, Yariv ; Van Trees, H.L.
Author_Institution :
Dept. of Appl. & Eng. Stat., George Mason Univ., Fairfax, VA, USA
fDate :
2/1/2000 12:00:00 AM
Abstract :
An adaptive beamformer that is robust to uncertainty in source direction-of-arrival (DOA) is derived using a Bayesian approach. The DOA is assumed to be a discrete random variable with a known a priori probability density function (PDF) that reflects the level of uncertainty in the source DOA. The resulting beamformer is a weighted sum of minimum variance distortionless response (MVDR) beamformers pointed at a set of candidate DOAs, where the relative contribution of each MVDR beamformer is determined from the a posteriori PDF of the DOA conditioned on previously observed data. A simple approximation to the a posteriori PDF results in a straightforward implementation. Performance of the approximate Bayesian beamformer is compared with linearly constrained minimum variance (LCMV) beamformers and data-driven approaches that attempt to estimate signal characteristics or the steering vector from the data
Keywords :
Bayes methods; approximation theory; array signal processing; direction-of-arrival estimation; interference suppression; matrix algebra; probability; signal sampling; Bayesian approach; DOA estimation; LCMV beamformers; PDF; approximate Bayesian beamformer; approximation; data-driven approaches; discrete random variable; interference suppression; linearly constrained minimum variance beamformers; minimum variance distortionless response; noise suppression; observed data; probability density function; robust adaptive beamforming; sample matrix; signal characteristics estimation; source direction-of-arrival uncertainty; steering vector; weighted sum MVDR beamformers; Array signal processing; Bayesian methods; Degradation; Direction of arrival estimation; Interference suppression; Probability density function; Random variables; Robustness; Sensor arrays; Uncertainty;
Journal_Title :
Signal Processing, IEEE Transactions on
