An efficient adaptive beam-space transformation technique and its application in array processing

Fan Zhan; Liang Guo-Long; Wang Jin-Jin; Wang Yan; Tao Kai

doi:10.7498/aps.64.094304

Abstract

Beam-space transformation projects the array data into a lower space, which is not only effective in reducing computation time, improving performance, but also being capable to suppress interference. In contrast to conventional adaptive beam-space transformation method, which often requires adjusting the beam-space matrix and steering vectors online, an efficient adaptive beam-space transformation method is proposed. In the proposed method, the beam-space covariance matrix and the steering vector both have closed-forms, and do not depend on the adaptive beam-space matrix. This eliminates the online adjustment process, and, thus, improves the computational efficiency. Finally, the proposed method can also be applied to the direction of arrival (DOA) estimation. Simulation results demonstrate that it has a better DOA estimation performance than the conventional adaptive method. Furthermore, the proposed method also has another significant advantage, i.e., it is able to suppress moving interference. This can be ascribed to the proposed beam-space matrix which is independent of the historical data, and, thus, effective to avoid the mismatch between the training and application data, since this mismatch often occurs in conventional adaptive methods.

Keywords:

Authors and contacts

1.
Acoustic Science and Technology Laboratory, Harbin 150001, China;
2.
College of Underwater Acoustic Engineering, Harbin Engineering University, Harbin 150001, China
Funds: Project supported by the National Natural Science Foundation of China (Grant Nos. 51279043, 61201411, 51209059).

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Cited By

[1]	Van T H 2002 Optimum Array Processing (3rd Ed.) (New York: Wiley) p575
[2]	Lu L, Ji X L, Deng J P, Li X Q 2014 Chin. Phys. B 23 064209
[3]	Liang G L, Ma W, Fan Z, Wang Y L 2013 Acta Phys. Sin. 62 144302 (in Chinese) [梁国龙, 马巍, 范展, 王逸林 2013 62 144302]
[4]	Shi J, Yang D S, Shi S G 2012 Acta Phys. Sin. 61 124302 (in Chinese) [时洁, 杨德森, 时胜国 2012 61 124302]
[5]	Forster P, Vezzosi G 1987 Proc. Int. Conf. Acoustics, Speech, Signal Processing (ICASSP) Dallas, TX, Apr. 6-9, 1987 p2268
[6]	Aboulnasr H, Sherif A E, Alex B G, Kon M W 2006 IEEE Trans. Signal Process. 54 1587
[7]	Wei L, Stephan W 2010 Wideband Beamforming : Concepts and Techniques(New York: Wiley) p188
[8]	Yang T, Su T, He X H 2013 Journal of Electronics & Information Technology 37 2758 (in Chinese) [杨涛, 苏涛, 何学辉 2013 电子与信息学报 37 2758]
[9]	Zhi W J, Yan S G, Li Z S 2002 Acta Acoustica Sin. 27 133 (in Chinese) [智婉君, 严胜刚, 李智舜 2002 声学学报 27 133]
[10]	Wang Y, Wu W F, Fan Z, Liang G L 2013 Acta Phys. Sin. 62 184302 (in Chinese) [王燕, 吴文峰, 范展, 梁国龙 2013 62 184302]
[11]	Lin B Q, Zhao S H, Wei W, Da X Y, Zheng Q R, Zhang H Y, Zhu M 2014 Chin. Phys. B 23 024201
[12]	Wang Y Q, Ye J S, Liu S T, Zhang Y 2013 Chin. Phys. B 22 114202
[13]	Zeng Y H, Liang Y C 2009 IEEE Trans. Commun. 56 1784
[14]	Lorenz R, Boyd S 2005 IEEE Trans. Signal Process. 53 1684
[15]	Boyd S, Vandenberghe L 2004 Convex Optimization (1st Ed.) (Cambridge: Cambridge University Press) p125
[16]	Zhang X D 2004 Matrix Analysis and Applications (Beijing: Tsinghua University Press) p262 (in Chinese) [张贤达 2004 矩阵分析与应用(北京:清华大学出版社) 第262页]

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Vol. 64, Issue 9 - 2015-05-05

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