Eigenstructure methods for DOA estimation of circular acoustic vector sensor array with axial angle bias in nonuniform noise
Author:
Publisher
Elsevier BV
Subject
Electrical and Electronic Engineering,Signal Processing,Artificial Intelligence,Applied Mathematics,Computer Vision and Pattern Recognition,Statistics, Probability and Uncertainty,Computational Theory and Mathematics
Reference30 articles.
1. N. Zou and A. Nehorai. Circular acoustic vector-sensor array for mode beamforming. IEEE Trans. Signal Process., 57:3041–3052, 2009.
2. S.G. Shi, Y. Li, D.S. Yang, and A.F. Liu. Sparse representation based direction-of-arrival estimation using circular acoustic vector sensor arrays. Digit. Signal Process., 99:102675, 2020.
3. L. Ge, K. Xu, J. Wan, Y. Chen, and G. Li. Azimuth angle estimation based on joint processing of acoustic pressure and analytic velocity. in: Proceedings of IEEE 2nd Advanced Information Technology, Electronic and Automation Control Conference (IAEAC), 2017.
4. B.A. Cray and A.H. Nuttall. Directivity factors for linear arrays of velocity sensors. J. Acoust. Soc. Amer., 110:324–331, 2001.
5. C.P. Mathews and M.D. Zoltowski. Eigenstructure techniques for 2-d angle estimation with uniform circular arrays. IEEE Trans. Signal Process., 42:2395–2407, 1994.
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