[1] LEE J S,JURKEVICH I.Segmentation of SAR Images[J].IEEE Transactions on Geoscience and Remote Sensing,1989,27(6):674-680. [2] OLIVER C,QUEGAN S.Understanding Synthetic Aperture Radar Images[M].Raleigh:SciTech Publishing,Inc.,2004. [3] FJORTOFT R,LOPES A,MARTHON P,et al.An Optimum Multiedge Detector for SAR Image Segmentation[J].IEEE Transactions on Geoscience and Remote Sensing,1998,36(3):793-802. [4] FJORTOFT R,LOPES A,BRUNIQUEL J,et al.Optimal Edge Detection and Edge Localization in Complex SAR Images with Correlated Speckle[J].IEEE Transactions on Geoscience and Remote Sensing,1999,37(5):2272-2281. [5] GERMAIN O,REFREGIER P.Edge Location in SAR images:Performance of the Likelihood Ratio Filter and Accuracy Improvement with an Active Contour Approach[J].IEEE Transactions on Image Processing,2001,10(1):72-78. [4] 王涛,余文力,朱峰.高功率微波武器杀伤机理及发展现状[J].飞航导弹,2008(3):12-16,26. WANG Tao,YU Wen-li,ZHU Feng.The Mechanism and Development of High Power Microwave Weapons[J].Winged Missiles Journal,2008(3):12-16,26. [5] 赵向东,张志明,刘纯.空袭作战平台红外对抗技术作用机理分析[J].现代防御技术,2014,42(3):122-126,148. ZHAO Xiang-dong,ZHANG Zhi-ming,LIU Chun.Analysis of the Mechanism of Infrared Countermeasure in Air Attack Platform[J].Modern Defence Technology,2014,42(3):122-126,148. [6] 殷希梅,冯鹏鹏.末敏弹对抗技术现状及展望[J].探测与控制学报,2017,39(5):1-6. YIN Xi-mei,FENG Peng-peng.Status and Prospect of Terminal Sensitive Projectile Technology[J].Journal of Detection & Control,2017,39(5):1-6. [7] 宋海平,张柯,刘勇,等.装甲车辆主动防护系统综合反应时间分析[J].电子信息对抗技术,2014,29(2):36-38,74. SONG Hai-ping,ZHANG Ke,LIU Yong,et al.Synthesis Reaction Time Analysis of Armored Vehicle Active Protection System[J].Electronic Information Warfare Technology,2014,29(2):36-38,74. [8] 雷灏,尉广军,姚志敏.国外坦克装甲车辆主动防护系统发展综述[J].飞航导弹,2013(11):30-35. LI Hao,WEI Guang-jun,YAO Zhi-min.Summary of the Development of Active Protection System for Foreign Tanks and Armored Vehicles[J].Aerodynamic Missile Journal,2013(11):30-34. [9] 任晓刚.国外坦克装甲车辆主动防护系统[J].火力与指挥控制,2010,35(S1):5-6. REN Xiao-gang.Foreign Tank Armored Vehicle Active Protection System Introduction[J].Fire Control & Command Control,2010,35(S1):5-6. [10] 高玮,茹志兵,雷海丽,等.激光诱偏干扰技术在车载主动防护系统中的应用[J].应用光学,2019,40(2):217-222. GAO Wei,RU Zhi-bing,LEI Hai-li,et al.Application of Laser Induced Bias Interference Technology in Vehicle Active Protection System[J].Journal of Applied Optics,2019,40(2):217-222. [11] 张兵,白渭雄,付孝龙.拖曳式诱饵对抗方法分析[J].现代防御技术,2014,42(4):69-74. ZHANG Bing,BAI Wei-xiong,FU Xiao-long.Antagonistic Methods Analysis of Towed Radar Decoy[J].Modern Defence Technology,2014,42(4):69-74. [12] 刘振,隋金坪,魏玺章,等.雷达有源干扰识别技术研究现状与发展趋势[J].信号处理,2017,33(12):1593-1601. LIU Zhen,SUI Jin-ping,WEI Xi-zhang,et al.Research Status and Development Trend of Radar Active Jamming Identification Technology[J].Signal Processing,2017,33(12):1593-1601. [13] 陈赓,田波,宫健,等.雷达有源干扰鉴别技术综述[J].现代防御技术,2019,47(5):113-119. CHEN Geng,TIAN Bo,GONG Jian,et al.Overview of Radar Active Jamming Identification Techniques[J].Modern Defence Technology,2019,47(5):113-119. [14] 金珊珊,王春阳,李欣.灵巧干扰及其对抗技术综述[J].现代防御技术,2014,42(4):131-135,142. JIN Shan-shan,WANG Chun-yang,LI Xin.Overview on Smart Noise Jamming and Countermeasures[J].Modern Defence Technology,2014,42(4):131-135,142. [15] 汪日超.星载SAR压制式干扰与抗干扰技术研究[D].成都:电子科技大学,2017. WANG Ri-chao.Research on Spaceborne SAR Compression Interference and Anti-Jamming Technology[D].Chengdu:University of Electronic Science and Technology of China,2017. |