Chaff Cloud Jamming Suppression Based on Wavelet Transform

doi:10.1007/s12204-011-1214-4

Abstract

Abstract: Radar target signals and chaff cloud
jamming signals have different characters by the wavelet transform.
The wavelet coefficients of radar target signals are highly
correlated with its near-and-near-scale wavelet coefficients,
however the correlativity between the wavelet coefficients of chaff
cloud jamming signals and its near-and-near scale wavelet
coefficients is less significant. Based on the binary-base discrete
wavelet transform and the correlation algorithm, the method of
target entropy to estimate standard variance of the jamming signals
and each scale is proposed to ensure reasonable threshold, to
suppress chaff cloud signals and finally to reconstruct mixed
signals by the improved spatially selective noise filtration (ISSNF)
method. The extensive simulation results show that the proposed
method can availably suppress chaff cloud jamming and decontaminate
target echo.

Key words:

wavelet transform| target entropy| improved
spatially selective noise filtration (ISSNF)| jamming suppression

摘要： Radar target signals and chaff cloud
jamming signals have different characters by the wavelet transform.
The wavelet coefficients of radar target signals are highly
correlated with its near-and-near-scale wavelet coefficients,
however the correlativity between the wavelet coefficients of chaff
cloud jamming signals and its near-and-near scale wavelet
coefficients is less significant. Based on the binary-base discrete
wavelet transform and the correlation algorithm, the method of
target entropy to estimate standard variance of the jamming signals
and each scale is proposed to ensure reasonable threshold, to
suppress chaff cloud signals and finally to reconstruct mixed
signals by the improved spatially selective noise filtration (ISSNF)
method. The extensive simulation results show that the proposed
method can availably suppress chaff cloud jamming and decontaminate
target echo.

关键词:

wavelet transform| target entropy| improved
spatially selective noise filtration (ISSNF)| jamming suppression

CLC Number:

TN973

ZHAO Hai-bo (赵海波), PEI Jin-ze (裴晋泽), ZHAO Lei-ming (赵雷鸣), HU Guang-rui (胡光锐). Chaff Cloud Jamming Suppression Based on Wavelet Transform[J]. Journal of shanghai Jiaotong University (Science), 2011, 16(6): 704-707.

[1]	ZHUANG Hanyang (庄瀚洋), ZHOU Xuejun (周学军), WANG Chunxiang (王春香), QIAN Yuhan (钱宇晗). Wavelet Transform-Based High-Deﬁnition Map Construction From a Panoramic Camera [J]. J Shanghai Jiaotong Univ Sci, 2021, 26(5): 569-576.
[2]	BESSAAD Nassim, BAO Qilian, SUN Shuodong, DU Yuding, LIU Lin, HASSAN Mahmood Ul . Adaptive Dual Wavelet Threshold Denoising Function Combined with Allan Variance for Tuning FOG-SINS Filter [J]. Journal of Shanghai Jiao Tong University(Science), 2020, 25(4): 434-440.
[3]	LI Chunxiang,PEI Yangcongqi,YIN Xiao. Nonstationary Non-Gaussian Wind Pressure Prediction Using Hermite Combination Kernel Based EMD-WT-LSSVM [J]. Journal of Shanghai Jiaotong University, 2019, 53(10): 1249-1258.
[4]	ZHANG Yanghao (张洋豪), ZENG Shaoning (曾少宁), ZENG Wei (曾威), GOU Jianping (苟建平). GNN-CRC: Discriminative Collaborative Representation-Based Classification via Gabor Wavelet Transformation and Nearest Neighbor [J]. Journal of Shanghai Jiao Tong University (Science), 2018, 23(5): 657-665.
[5]	GAO Xiaoting,YANG Dongsheng. Research on Operation Condition Monitoring Method of Intellectual Apparatus Based on Data Driven [J]. Journal of Shanghai Jiaotong University, 2017, 51(9): 1104-1110.
[6]	ZHU Hai-jiang (祝海江). Wavelet-Based Hybrid Thresholding Method for Ultrasonic Liver Image Denoising [J]. Journal of shanghai Jiaotong University (Science), 2015, 20(2): 135-142.
[7]	WEN Cheng-yu* (文成玉), DONG Liang (董良), JIN Xin (金欣). Feature Extraction of Bearing Vibration Signals Using Second Generation Wavelet and Spline-Based Local Mean Decomposition [J]. Journal of shanghai Jiaotong University (Science), 2015, 20(1): 56-60.
[8]	SHAO Yiping1,WANG Meng1,DU Shichang1,XI Lifeng1,YANG Jia2. Three Dimensional Topography Analysis of Multi-Hole Surface Using High Definition Metrology [J]. Journal of Shanghai Jiaotong University, 2015, 49(09): 1339-1345.
[9]	YANG Guang,WU Jingyi. Analysis of Temperature Uniformity in a Spacecraft Thermal-Cycling Test System Based on Wavelet Transform and Multiple Regression [J]. Journal of Shanghai Jiaotong University, 2014, 48(09): 1346-1350.
[10]	ZHANG Qiang1* (张强), CAI Yun-ze1 (蔡云泽), XU Xiao-ming1,2,3 (许晓鸣). Orthogonal Discriminant Improved Local Tangent Space Alignment Based Feature Fusion for Face Recognition [J]. Journal of shanghai Jiaotong University (Science), 2013, 18(4): 425-433.
[11]	XIE Rong-shenga* (谢荣生), WU Ke-shoua (吴克寿), XU Gao-pana (许高攀), OUYANG Miaob (欧阳苗). Research on Anti-Counterfeiting Quick Response 2D Barcode Techniques Based on Digital Watermark [J]. Journal of shanghai Jiaotong University (Science), 2013, 18(4): 443-447.
[12]	GENG Chao1,WANG Fenghua1,HUANG Hua2,JIN Zhijian1. Transformer Winding Modal Parameter Identification Based on Complex Morlet Wavelet Transform [J]. Journal of Shanghai Jiaotong University, 2013, 47(12): 1980-1986.
[13]	JIA Yizhuo,JIANG Runxiang,GONG Shenguang. Detection of Ship Shaft-rate Electric Field Signal Using Spatially Selective Noise Filtration [J]. Journal of Shanghai Jiaotong University, 2013, 47(07): 1027-1031.
[14]	ZENG Taoa,HUANG Meizhena,LIANG Minglianga，JING Junbob,LIU Tianyuanb,LIN Peihuab. Signal Processing Methods for Detecting Impurities in Ampoules [J]. Journal of Shanghai Jiaotong University, 2013, 47(06): 998-1002.
[15]	CONG Shuang, PU Ya-Kun. Improved Fast Block Matching Algorithm in Video Coding [J]. Journal of Shanghai Jiaotong University, 2012, 46(12): 1885-1890.