Title :
Adaptive high-resolution algorithms for tracking nonstationary sources without the estimation of source number
Author :
Yang, Jar-Ferr ; Lin, Hui-Ju
Author_Institution :
Dept. of Electr. Eng., Nat. Cheng Kung Univ., Tainan, Taiwan
fDate :
3/1/1994 12:00:00 AM
Abstract :
In this paper, a generalized inflation method which can adaptively and robustly converge to the noise-subspace is proposed to improve the performances of subspace algorithms used for tracking nonstationary sources. This generalized inflation method, which includes an inflation factor developed in the view point of orthogonal projection, preserves the parallel structure for realizations and achieves better performances of convergence and initialization behavior than the inflation method, adaptive Pisarenko (1973) harmonic retrieval algorithms, and other adaptive eigensubspace algorithms when the number of sources is not known. A bound of the inflation factor is also suggested to secure the noise-subspace-only adaptation. The general inflation method in use of weighted-subspace can further improve the tracking performances. Simulations for analyzing the tracking performances of the algorithms are also included
Keywords :
array signal processing; convergence of numerical methods; eigenvalues and eigenfunctions; tracking; white noise; DOA estimation; Pisarenko harmonic retrieval; adaptive high resolution algorithms; convergence; directions of arrival estimation; inflation factor; initialization; noise subspace; nonstationary sources tracking; orthogonal projection; parallel structure; simulations; subspace algorithms; tracking performance; uniform linear array; weighted eigensubspace; Algorithm design and analysis; Analytical models; Convergence; Covariance matrix; Multiple signal classification; Noise robustness; Performance analysis; Sensor arrays; Space technology; Vectors;
Journal_Title :
Signal Processing, IEEE Transactions on
