论文信息 - A fast algorithm for 2-D direction-of-arrival estimation

A fast algorithm for 2-D direction-of-arrival estimation

A computationally efficient method for two-dimensional direction-of-arrival estimation of multiple narrowband sources impinging on the far field of a planar array is presented. The key idea is to apply the propagator method which only requires linear operations but does not involve any eigendecomposition or singular value decomposition as in common subspace techniques such as MUSIC and ESPRIT. Comparing with a fast ESPRIT-based algorithm, it has a lower computational complexity particularly when the ratio of array size to the number of sources is large, at the expense of negligible performance loss. Simulation results are included to demonstrate the performance of the proposed technique.

[1] Vikas S. Kedia,et al. A new algorithm for 2-D DOA estimation , 1997, Signal Process..

[2] Bianzhang Yu,et al. A new method for two-dimensional array signal processing in unknown noise environments , 1995, Signal Process..

[3] Yingbo Hua,et al. Further study of the Pencil-MUSIC algorithm , 1996 .

[4] Ed F. Deprettere,et al. Azimuth and elevation computation in high resolution DOA estimation , 1992, IEEE Trans. Signal Process..

[5] Y. Hua,et al. An L-shaped array for estimating 2-D directions of wave arrival , 1991 .

[6] Jerry M. Mendel,et al. Azimuth and elevation direction finding using arbitrary array geometries , 1998, IEEE Trans. Signal Process..

[7] Messaoud Benidir,et al. The propagator method for source bearing estimation , 1995, Signal Process..

[8] Michael D. Zoltowski,et al. Closed-form 2-D angle estimation with rectangular arrays in element space or beamspace via unitary ESPRIT , 1996, IEEE Trans. Signal Process..

[9] Thomas Kailath,et al. Azimuth/elevation direction finding using regular array geometries , 1992 .