Forward-looking Multi-channel SAR Adaptive Identification to Suppress Deception Jamming

被引：0

作者：

Meng Z. ^{[1
]}

Lu J. ^{[1
]}

Zhang L. ^{[1
]}

机构：

[1] National Key Laboratory of Radar Signal Processing, Xidian University, Xi'an

来源：

Journal of Radars | 2019年 / 8卷 / 01期

基金：

中国国家自然科学基金; 上海市自然科学基金;

关键词：

Azimuth ADaptive Beam Forming (AADBF); Deception jamming; Forward-Looking Multi-Channel SAR (FLMC SAR); Interference suppression;

D O I：

10.12000/JR18081

中图分类号：

学科分类号：

摘要：

Forward-looking multi-channel SAR imaging suffers from ambiguity regarding left and right echoes. To deblur the imaging process, spatial resources must be used, which make the imaging process more complex than the general side-looking SAR. In complex electromagnetic environments, it is very difficult to obtain forward-looking SAR images without interference or ambiguity. In this paper, we present an adaptive discriminant suppression algorithm that addresses deception jamming based on Azimuth ADaptive Beam Forming (AADBF). First, we use the AADBF technique to cancel the multi-channel received echo signal and retain the deception jamming samples. Then, we use the threshold detection method to identify the pixel location of the deception jamming on high-resolution SAR images. Finally, we apply adaptive spatial filtering to pixels with interference to achieve anti-deception jamming. Simulation results show that this method can effectively identify and suppress deception jamming, while realizing forward-looking SAR non-interference focusing imaging. © 2019 Institute of Electronics Chinese Academy of Sciences. All rights reserved.

引用

页码：82 / 89

页数：7

共 13 条

[1] Zhang Y.-J., Wang Y.-P., Tan W.-X., Et al., Motion compensation for airborne forward looking synthetic aperture radar with linear array antennas[J], Journal of Radars, 2, 2, pp. 168-179, (2013)
[2] Dai S.L., Liu M., Sun Y.J., Et al., The latest development of high resolution imaging for forward looking SAR with multiple receiving antennas[C], Proceedings of Scanning the Present and Resolving the Future. Proceedings. IEEE 2001 International Geoscience and Remote Sensing Symposium, pp. 1433-1435, (2001)
[3] Feng D., Wang J., Wang J., Signature analysis and discrimination method of preceded frequency-shift false target[J], Journal of Radars, 6, 4, pp. 325-331, (2017)
[4] Qi W.-K., Yu W.-D., Research on countering deceptive jamming with range DBF-SAR system[J], Journal of Electronics & Information Technology, 32, 12, pp. 2830-2835, (2010)
[5] Zhang S.-X., Sun G.-C., Liu Y.-Y., Et al., Deception interference supression algorithm based on four-channel for SAR[J], Modern Radar, 33, 2, pp. 22-26, (2011)
[6] Feng X.-Z., Xu X.-J., Study of countermeasures to deceptive jamming using random linear modulation frequency ratio SAR[J], Systems Engineering and Electronics, 31, 1, pp. 69-73, (2009)
[7] Krieger G., Gebert N., Moreira N., Multidimensional waveform encoding: A new digital beamforming technique for synthetic aperture radar remote sensing[J], IEEE Transactions on Geoscience and Remote Sensing, 46, 1, pp. 31-46, (2008)
[8] Wenchong X.I.E., Duan K., Wang Y., Space time adaptive processing technique for airborne radar: An overview of its development and prospects[J], Journal of Radars, 6, 6, pp. 575-586, (2017)
[9] Wang Y.-L., Ding Q.-J., Li R.-F., Adaptive Array Processing[M], pp. 66-72, (2009)
[10] Gong Y.-H., Adaptive Filtering-Time Domain Adaptive Filtering and Smart Antenna[M], pp. 288-297, (2003)

← 1 2 →