Selection of Auxiliary Samples for Reverberation Suppression via STAP
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摘要: 空时自适应处理(STAP)的一个关键问题是协方差矩阵的估计, 协方差矩阵的估计是依靠待检数据附近的辅助样本来完成的。要使估计精度足够高, 就要求获取足够多的独立同分布的辅助样本。文中对混响数据辅助样本的相关性、同分布特性、时间点数选择问题进行了分析, 根据水声信号的特点, 给出了有效的处理方案。通过综合考虑协方差矩阵估计精度、自适应处理运算量和降维STAP方法等因素, 给出了采用STAP方法抑制混响时辅助样本的选取方法, 为STAP抗混响的实现提供了条件。
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关键词:
- 水声信号 /
- 抗混响 /
- 空时自适应处理(STAP) /
- 辅助样本
Abstract: A key link in space-time adaptive processing (STAP) is the estimation of covariance matrix, which depends on auxiliary samples near the sample to be detected. To ensure the estimation accuracy, sufficient independent identically distributed auxiliary samples are necessary. In this paper, the correlation of reverberation auxiliary samples, the identical distribution characteristic, and the selection of time point number are analyzed, and a corresponding valid scheme is given according to the characteristics of acoustic signal. As a result, a selection method of auxiliary samples for reverberation suppression via STAP is proposed through comprehensively considering the estimation precision of covariance matrix, the operand of adaptive processing, and the dimension-reduced STAP. -
[1] [1] Klemm R. Interrelations Between Matched-field Processing and Airborne MTI Radar[J]. IEEE Journal of Oceanic Engineering, 1993, 18(3): 168-180. [2] Jaffer A G. Constrained Partially Adaptive Space-time Processing for Clutter Suppression[C]//28th Asilomar Conference on Signal, System and Computer, Pacific Grove, CA, 1994: 671-676. [3] Mio K, Chocheyras Y, Doisy Y. Space Time Adaptive Processing for Low Frequency Sonar[C]//Oceans Conference Record (IEEE), USA, 2000: 1315-1319. [4] Kim B C, Lu I T. High Resolution Broadband Beamforming Based on the MVDR Method[C]//IEEE Oceans Conference, 2000: 1025-1028. [5] Maiwald D, Benen S, Hostermann H, et al. Space-time Adaptive Processing for Active Towed Array Sonar Systems[C]//UDT Europe 2001, 2001: 1-6. [6] Pillai S U, Guerci J R, Pillai S R. Wideband STAP (WB-STAP) for Passive Sonar[C]//Oceans 2003. Proceedings, 2003: 2814-2818. [7] 吕维, 王志杰, 李建辰, 等. 混响空时协方差矩阵的两种计算方法比较与分析[J]. 鱼雷技术, 2012, 20(4): 251-255.Lü Wei, Wang Zhi-jie, Li Jian-chen, et al. Comparison and Analysis of Two Calculation Methods of Space Time Covariance Matrix for Reverberation[J]. Torpedo Technology, 2012, 20(4): 251-255. [8] 赵申东, 唐劲松, 蔡志明. 多通道运动声呐混响仿真[J]. 舰船科学技术, 2007, 29(4): 117-120.Zhao Shen-dong, Tang Jin-song, Cai Zhi-ming. Simulation of Multi-channel Moving Sonar Reverberation[J]. Ship Science and Technology, 2007, 29(4): 117-120. [9] 陈建文, 王永良, 皇甫堪, 等. 基于非均匀检测的机载雷达空时自适应处理方法[J]. 数据采集与处理, 2000, 15(1): 44-47.Chen Jian-wen, Wang Yong-liang, Huang Fu-kan, et al. The STAP Method of Airboarn Radar Based on Inhomogeneous Detection[J]. Data Acquisition and Processing, 2000, 15(1): 44-47. [10] Wang H, Cai L. On Adaptive Spatial-temporal Processing for Airborne Surveillance Radar Systems[J]. IEEE Trans. AES, 1994, 30(3): 660-670. -
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