Title :
Computationally efficient DOA estimation in a multipath environment using covariance differencing and iterative spatial smoothing
Author :
Al-Ardi, Ebrahim M. ; Shubair, Raed M. ; Al-Mualla, Mohammed E.
Author_Institution :
Etisalat Coll. of Eng., Sharjah, United Arab Emirates
Abstract :
High-resolution signal processing using sensor arrays to estimate the directions of unknown correlated signals in multipath environments is associated with high computational complexity. This paper proposes a computationally efficient direction of arrival (DOA) estimation algorithm. The algorithm is based on two stages of detection: a first stage for discriminating uncorrelated signals and a second stage for resolving the directions of arrival of correlated signals using covariance differencing and iterative spatial smoothing. Simulation results show that the proposed algorithm operates at a much lower computational cost compared to standard methods.
Keywords :
array signal processing; computational complexity; correlation methods; covariance analysis; direction-of-arrival estimation; iterative methods; multipath channels; signal resolution; smoothing methods; DOA; MUSIC; computational complexity; computationally efficient DOA estimation; covariance differencing; direction of arrival estimation algorithm; high-resolution signal processing; iterative spatial smoothing; multipath environment; multipath environments; multiple signal classification algorithm; sensor arrays; uncorrelated signals discrimination; unknown correlated signals; Array signal processing; Computational complexity; Direction of arrival estimation; Iterative algorithms; Sensor arrays; Signal processing; Signal processing algorithms; Signal resolution; Smoothing methods; Spatial resolution;
Conference_Titel :
Circuits and Systems, 2005. ISCAS 2005. IEEE International Symposium on
Print_ISBN :
0-7803-8834-8
DOI :
10.1109/ISCAS.2005.1465459
