The propagator method for source bearing estimation
Signal Processing
Fast communication: a fast algorithm for 2-D direction-of-arrival estimation
Signal Processing - Special section: Hans Wilhelm Schüßler celebrates his 75th birthday
Introduction to Space-Time Wireless Communications
Introduction to Space-Time Wireless Communications
IEEE Transactions on Signal Processing
Azimuth and elevation direction finding using arbitrary arraygeometries
IEEE Transactions on Signal Processing
Estimating 2-D DOA angles using nonlinear array configurations
IEEE Transactions on Signal Processing
Localization of narrow-band sources in unknown spatially correlated noise
EURASIP Journal on Advances in Signal Processing
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Recently, Wu et al. proposed a scheme for two-dimensional direction of arrival angle estimation for azimuth and elevation angles, using the propagator method. An advantage of this method over the classical subspace based algorithms, such as ESPRIT and MUSIC, is that it does not apply any eigenvalue decomposition (EVD) to the cross spectral matrix or singular value decomposition (SVD) to the received data. This significantly reduces the computational complexity, compared to the EVD and SVD. However, Wu's method has some drawbacks, such as pair matching between the azimuth and elevation angle estimations for multiple different sources. Furthermore, Wu's method has an estimation failure problem in the range of practical mobile elevation angles. The objectives of this paper are two-fold: (1) to overcome these two problems with less arithmetic operation counts than Wu used; and (2) to improve the performance significantly. To achieve these objectives, we propose an antenna array configuration which avoids these problems. Simulation results verify that the proposed scheme can remove these problems and give much better performance.