Study on simulation method of intercept probability for ultra-low-altitude targets by antiaircraft gun TV tracking system
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摘要: 针对高炮电视跟踪系统目前无法通过实装试验方式对超低空目标截获概率进行考核的问题,分析了影响截获概率的因素,如地面图像和目标同时处于光电系统视场中对光电系统图像处理的影响,通过搭建软件和硬件环境,建立了一种基于三维虚拟试验场的仿真试验方法。构建了典型的测试用例,利用仿真系统采集视频,将图像输入到视频跟踪器中进行处理,通过对输出数据进行处理,可定性或定量判定是否可以截获目标。该方法应用于某型轮式弹炮结合防空武器系统试验,验证了该方法的有效性。Abstract: In view of the problem that the antiaircraft gun TV tracking system can not assess the intercept probability of ultra-low-altitude targets by the actual assembling method, the factors affecting the intercept probability were analyzed, such as the ground image and the target were simultaneously in the field of view of the photoelectric system and affected the image processing of the photoelectric system. By constructing the software and hardware environment, a simulation test method based on the three-dimensional virtual test field was proposed. The typical test case was constructed and used in the test of the antiaircraft gun TV tracking system. Firstly, the video was captured by the simulation system, and then the image was input into the video tracker for processing. By observing whether the tracking state was stable in the output video or not, it was qualitatively or quantitatively determined whether the target could be intercepted. This method was applied to the test of a certain wheeled missile-gun combined with air defense weapon system, and the validity of the method was verified.
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[1] 瞿建荣, 王小齐, 段红建. 光电跟踪系统论证与设计[J]. 应用光学,2014,35(2):173-178. QU Jianrong, WANG Xiaoqi, DUAN Hongjian. Demonstration and design of optoelectronic tracking system[J]. Journal of Applied Optics,2014,35(2):173-178.
[2] 王昱, 王小齐, 吴佳, 等. 光电跟踪系统固有特性灵敏度分析[J]. 激光与红外,2016,46(9):1119-1123. doi: 10.3969/j.issn.1001-5078.2016.09.019 WANG Yu, WANG Xiaoqi, WU Jia, et al. Sensitivity analysis of inherent characteristics of photoelectric tracking system[J]. Laser and Infrared,2016,46(9):1119-1123. doi: 10.3969/j.issn.1001-5078.2016.09.019
[3] 段红建, 杨爱粉, 瞿建荣, 等. 激光压制武器及光电跟踪系统一体化技术在防空中的应用[J]. 应用光学,2010,31(1):142-146. DUAN Hongjian, YANG Aifen, QU Jianrong, et al. Application of laser suppression weapon and opto-electronic tracking integrative technique in air defense[J]. Journal of Applied Optics,2010,31(1):142-146.
[4] 邱晓波, 窦丽华, 单东升, 等. 光电跟踪系统自抗扰伺服控制器的设计[J]. 光学精密工程,2010,18(1):220-226. QIU Xiaobo, DOU Lihua, SHAN Dongsheng, et al. Design of auto-disturbance-resistance servo controller for photoelectric tracking system[J]. Optics and Precision Engineering,2010,18(1):220-226.
[5] 张启衡, 彭先蓉, 单承建, 等. 高帧频电视跟踪系统的特点与关键技术研究[J]. 光电工程,1998(6):66-70. ZHANG Qiheng, PENG Xianrong, SHAN Chengjian, et al. Research on the characteristics and key technologies of high frame rate TV tracking system[J]. Optoelectronic Engineering,1998(6):66-70.
[6] 中央军委装备发展部. GJB 3856A—2018高炮武器系统定型试验规程[S]. 北京: 中国标准出版社, 2018. Equipment Development Department, Central Military Commission. GJB 3856A-2018 Antiaircraft weapon system type test test regulations[S]. Beijing: China Standard Press, 2018.
[7] 肖元星, 张冠杰. 地面防空武器系统效费分析[M]. 北京: 国防工业出版社, 2006. XIAO Yuanxing, ZHANG Guanjie. Analysis of ground air defense weapon system cost[M]. Beijing: National Defence Industry Press, 2006.
[8] 姜会林, 杨华民, 王黎明, 等. 军用光电系统总体技术共性问题考虑[J]. 长春光学精密机械学院学报,1996(1): 1-5. JIANG Huilin, YANG Huamin, WANG Liming, et al. Considerations on the common technical problems of military optoelectronic systems[J]. Journal of Changchun Institute of Optics and Fine Mechanics; 1996(1): 1-5.
[9] 刘建平, 陆培国, 成莉, 等. 光电跟踪仪多传感器数据采集研究[J]. 应用光学,2009,30(1):60-64. LIU Jianping, LU Peiguo, CHENG Li, et al. Data acquisition in multi-sensor electro-optical tracker[J]. Journal of Applied Optics,2009,30(1):60-64.
[10] 孟举. 基于视频图像处理的头部位置跟踪算法研究[D]. 西安: 西北工业大学, 2007. MENG Ju. Research on head position tracking algorithm based on video image processing[D]. Xian: Northwestern Polytechnical University, 2007.
[11] 马佳光. 捕获跟踪与瞄准系统的基本技术问题[J]. 光电工程,1989(3):1-42. MA Jiaguang. Basic technical issues of capture tracking and aiming system[J]. Optoelectronic Engineering,1989(3):1-42.
[12] 舒小芳, 吴卓昆, 冯海青. 光电跟踪系统频率特性测试与数据分析[J]. 光电技术应用,2010,25(2):5-7. doi: 10.3969/j.issn.1673-1255.2010.02.002 SHU Xiaofang, WU Zhuokun, FENG Haiqing. Frequency characteristics test and data analysis of photoelectric tracking system[J]. Electro-Optic Technology Application,2010,25(2):5-7. doi: 10.3969/j.issn.1673-1255.2010.02.002
[13] 王国丽, 杜忠磊, 刘树辉, 等. 光电跟踪系统结构动态特性分析及优化[J]. 北京理工大学学报,2011,31(1):12-14. WANG Guoli, DU Zhonglei, LIU Shuhui, et al. Structure analysis and its optimization of photoelectric seeking system under vibration[J]. Transactions of Beijing Institute of Technology,2011,31(1):12-14.
[14] 安毓英, 曾小东, 刘劲松, 等. 战术激光武器的威胁及其技术剖析[J]. 应用光学,1994,15(5):5-15. AN Yuying, ZENG Xiaodong, LIU Jinsong, et al. Analysis for threat of tactical laser weapons and their techniques[J]. Journal of Applied Optics,1994,15(5):5-15.
[15] 刘小强, 芦峰, 梁晓东, 等. 一种光电跟踪复合控制切入反馈控制的误差抑制方法[J]. 应用光学,2013,34(1):59-63. LIU Xiaoqiang, LU Feng, LIANG Xiaodong, et al. Error reduction of optoelectronic tracking platform for switching fromcompound control to feedback control[J]. Journal of Applied Optics,2013,34(1):59-63.
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