Title :
Eigenstructure-based algorithms for direction finding with time-varying arrays
Author :
Friedlander, Benjamin ; Zeira, Ariela
Author_Institution :
California Univ., Davis, CA, USA
fDate :
4/1/1996 12:00:00 AM
Abstract :
This paper considers the problem of finding the directions of narrowband signals using a time-varying array whose elements move during the observation interval in an arbitrary but known way. We derive two eigenstructure-based algorithms for this problem, which are modifications of techniques developed originally for time-invariant arrays. The first uses array interpolation, and the second uses focusing matrices. Like other eigenstructure-based methods, these algorithms require a modest amount of computations in comparison with the maximum likelihood (ML) estimator. The performance of the algorithms is evaluated by Monte-Carlo simulations, and is compared with the Cramer Rao Bound (CRB). Although both techniques were successful for wideband array processing with time-invariant arrays, we found that only the interpolated array algorithm is useful for direction finding (DF) with time-varying arrays.
Keywords :
Monte Carlo methods; direction-of-arrival estimation; eigenstructure assignment; interpolation; matrix algebra; performance evaluation; time-varying systems; Cramer Rao Bound; Monte-Carlo simulations; array interpolation; direction estimation algorithms; direction finding; eigenstructure-based algorithms; focusing matrices; interpolated array algorithms; maximum likelihood estimator; modified beamforming; narrowband signals; time-varying arrays; wideband array processing; Apertures; Array signal processing; Cramer-Rao bounds; Direction of arrival estimation; Interpolation; Maximum likelihood estimation; Narrowband; Sensor arrays; Signal processing algorithms; Time varying systems; Transmission line matrix methods; Wideband;
Journal_Title :
Aerospace and Electronic Systems, IEEE Transactions on
