Title :
A neural network approach for DOA estimation and tracking
Author :
Badidi, L. ; Radouane, L.
Author_Institution :
Dept. de Phys., LESSI, Fes-Atlas, Morocco
Abstract :
Many signal subspace-based approaches have been proposed for determining the fixed direction of arrival (DOA) of plane waves impinging on an array of sensors. However, the computational burden of subspace-based algorithms makes them unsuitable for real-time processing of nonstationary signal parameters. We present an iterative procedure for DOA estimation and tracking, The complete procedure consists of, first, extracting the noise or signal subspace, by training the MCA or PCA algorithms, respectively. These algorithms contain only relatively simple operations and have self-organizing properties. Then, using the Newton algorithm, we get the estimated DOA. The performance on simulated data representing both constant and time-varying signals of the approach is presented
Keywords :
Newton method; array signal processing; direction-of-arrival estimation; eigenvalues and eigenfunctions; learning (artificial intelligence); neural nets; principal component analysis; signal classification; time-varying systems; tracking; DOA estimation; MCA algorithm; Newton algorithm; PCA algorithm; computational burden; direction of arrival; iterative procedure; neural network; nonstationary signal parameters; performance; plane waves; real-time processing; self-organizing properties; sensor array; signal subspace; subspace extraction; time-varying signals; tracking; training; Covariance matrix; Direction of arrival estimation; Frequency estimation; Iterative algorithms; Multiple signal classification; Neural networks; Principal component analysis; Sensor arrays; Signal processing; Vectors;
Conference_Titel :
Statistical Signal and Array Processing, 2000. Proceedings of the Tenth IEEE Workshop on
Conference_Location :
Pocono Manor, PA
Print_ISBN :
0-7803-5988-7
DOI :
10.1109/SSAP.2000.870161
