Title :
Multiple broad-band source location using steered covariance matrices
Author :
Krolik, Jeffrey ; Swingler, David
Author_Institution :
Dept. of Electr. & Comput. Eng., Concordia Univ., Montreal, Que., Canada
fDate :
10/1/1989 12:00:00 AM
Abstract :
The authors present an approach for reducing the threshold observation time required to achieve high-resolution localization of multiple broadband sources. The proposed techniques are based on a space-time statistic called the steered covariance matrix (STCM). The STCM, like the well-known cross-spectral density matrix (CSDM), has asymptotic properties which facilitate high-resolution source localization. In broadband settings, however, the STCM has the advantage that it can be estimated with much greater statistical stability than the CSDM. The STCM is used in conjunction with minimum variance and linear predictive spectral estimation to obtain the steered minimum variance (STMV) and steered linear prediction (STLP) methods. Analytical and simulation results are presented that indicate that the STMV and STLP methods exhibit lower threshold observation times than their CSDM-based counterparts
Keywords :
matrix algebra; signal detection; spectral analysis; analytical results; asymptotic properties; cross-spectral density matrix; high-resolution localization; linear predictive spectral estimation; multiple broadband source location; simulation results; space-time statistic; statistical stability; steered covariance matrices; steered linear prediction; steered minimum variance; threshold observation time; Array signal processing; Bandwidth; Covariance matrix; Frequency estimation; Narrowband; Position measurement; Sensor arrays; Signal resolution; Spatial resolution; Statistics;
Journal_Title :
Acoustics, Speech and Signal Processing, IEEE Transactions on
