无人机等效模拟高空侦察设备光学成像方法

doi:10.16182/j.issn1004731x.joss.20-0500

系统仿真学报 ›› 2021, Vol. 33 ›› Issue (10): 2511-2517.doi: 10.16182/j.issn1004731x.joss.20-0500

• 仿真模型/系统置信度评估技术 • 上一篇下一篇

无人机等效模拟高空侦察设备光学成像方法

涂建刚¹, 徐成^1,*, 汪辉¹, 沈增辉²

1.陆军工程大学训练基地,江苏徐州 221004;
2.北京中科智易科技有限公司,北京 100084

收稿日期:2020-07-18 修回日期:2020-09-28 出版日期:2021-10-18 发布日期:2021-10-18
通讯作者: 徐成(1987-),男,硕士,讲师,研究方向为装备保障。E-mail：472299060@qq.com
作者简介:涂建刚(1979-),男,硕士,副教授,研究方向为装备在役考核。E-mail：1609301242@qq.com

An Equivalent Method of UAV Simulating High-altitude Reconnaissance Equipment Optical Imaging

Tu Jiangang¹, Xu Cheng^1,*, Wang Hui¹, Shen Zenghui²

1. Training Base of Army Engineering University, Xuzhou 221004, China;
2. Beijing Zhong Ke Zhi Yi Science and Technology Co., Ltd, Beijing 100084, China

Received:2020-07-18 Revised:2020-09-28 Online:2021-10-18 Published:2021-10-18

摘要/Abstract

摘要： 针对我军地面重要军事目标伪装效果检测中敌军侦察设备实际图像难以获得、动用我军类似设备流程复杂且费用较高的现状,提出了一种利用无人机航拍然后生成高空光学侦察图像的等效检测方法。通过对比无人机和高空侦察设备的采集高度以及光学成像设备参数,确定等效后图像的像素点个数;通过插值得到像素点压缩后的像素值;根据大气传输损耗模型对像素值进行修正,得到等效后的高空侦察图像。对比实验表明：原始图像与等效生成图像灰度相似度为92.87%,证明该方法可行。

关键词: 无人机, 高空侦察, 伪装效果检测, 等效模拟

Abstract: Aiming at the situation that the actual image of enemy reconnaissance equipment is difficult to be obtained, and the process of using similar equipment of our army is complicated and expensive in the detection of the camouflage effect of our important military targets, an equivalent detection method of using the UAV aerial photography to generate the high-altitude optical reconnaissance images is proposed. The number of pixels in the equivalent image is determined by comparing the acquisition height and the optical imaging device’s parameters of the UAV and the high-altitude reconnaissance equipment. The compressed pixel value is calculated through the interpolation. The pixel value is corrected according to the atmospheric transmission loss model and the equivalent high-altitude reconnaissance image is finally obtained. The comparison experiments show that the gray scale similarity between the original image and the equivalent generated image is 92.87%, which proves the feasibility of the method.

Key words: UAV, high-altitude reconnaissance, camouflage effect detection, equivalent simulation

中图分类号:

TN203
TP391

涂建刚, 徐成, 汪辉, 沈增辉. 无人机等效模拟高空侦察设备光学成像方法[J]. 系统仿真学报, 2021, 33(10): 2511-2517.

Tu Jiangang, Xu Cheng, Wang Hui, Shen Zenghui. An Equivalent Method of UAV Simulating High-altitude Reconnaissance Equipment Optical Imaging[J]. Journal of System Simulation, 2021, 33(10): 2511-2517.

参考文献

[1] 李新其, 叶喜发. 阵地伪装改造方案的动态规划优化方法[J]. 兵器装备工程学报, 2018, 39(9): 26-29.
Li Xinqi, Ye Xifa.Dynamic Planning and Optimization Method of Position Camouflage Transformation Scheme[J]. Chinese Journal of Ordnance Equipment Engineering, 2018, 39(9): 26-29.
[2] 舒兆国. 现代卫星电子侦察及其干扰技术[J]. 电子技术与软件工程, 2019(20): 98-99.
Shu Zhaoguo.Modern Satellite Electronic Reconnaissance and Jamming Technology[J]. Electronic Technology and Software Engineering, 2019(20): 98-99.
[3] 沈泓, 曹国侯, 宁强, 等. 浅析遥感技术给国防工程伪装带来的挑战与机遇[J]. 中国地质调查, 2017, 4(3): 70-73.
Shen Hong, Cao Guohou, Ning Qiang, et al.Analysis of the Challenges and Opportunities Brought by Remote Sensing Technology to the Camouflage of National Defense Projects[J]. China Geological Survey, 2017, 4(3): 70-73.
[4] 李佳坤, 李彦彬, 张海瑞. 防空导弹装备光学伪装效果评估[J]. 激光与红外, 2019, 49(5): 605-610.
Li Jiakun, Li Yanbin, Zhang Hairui.Evaluation of the Optical Camouflage Effect of Air Defense Missile Equipment[J]. Laser and Infrared, 2019, 49(5): 605-610.
[5] 王冰, 成斌, 赵威, 等. 机载可见光侦察系统最大探测距离地面等效实验方法研究[J]. 光学与光电技术, 2013, 11(5): 62-64.
Wang Bing, Cheng Bin, Zhao Wei, et al.Research on the Ground Equivalent Experimental Method of the Maximum Detection Distance of the Airborne Visible Light Reconnaissance System[J]. Optics and Optoelectronics Technology, 2013, 11(5): 62-64.
[6] 梁冬明, 张曼菊, 杨昊东, 等. 可见光侦察系统作用距离等效推算分析[J]. 现代电子技术, 2013, 36(1): 25-27.
Liang Dongming, Zhang Manju, Yang Haodong, et al.The Equivalent Calculation Analysis of the Range of Visible Light Reconnaissance System[J]. Modern Electronic Technology, 2013, 36(1): 25-27.
[7] 邓建军, 高峰, 张琳. 基于减小观测距离的光学伪装效果等效检测[J]. 探测与控制学报, 2012, 34(3): 19-22.
Deng Jianjun, Gao Feng, Zhang Lin.Equivalent detection of Optical Camouflage Effect based on Reduced Observation Distance[J]. Journal of Detection and Control, 2012, 34(3): 19-22.
[8] 顾有林, 乔延利, 易维宁, 等. 基于光学遥感成像模拟软件的伪装效果检测[J]. 兵工学报, 2008, 29(6): 678-682.
Gu Youlin, Qiao Yanli, Yi Weining, et al.Camouflage Effect Detection based on Optical Remote Sensing Imaging Simulation Software[J]. Acta Armamentarii, 2008, 29(6): 678-682.
[9] 李爱琴. 基于室内场景图像的区域立体匹配算法的研究[D]. 南京: 南京邮电大学, 2018.
Li Aiqin.Research on Regional Stereo Matching Algorithm based on Indoor Scene Image[D]. Nanjing: Nanjing University of Posts and Telecommunications, 2018.
[10] 王建军, 黄晨, 陆长明. 空间目标的空基红外测量技术[J]. 飞行器测控学报, 2016, 35(3): 169-174.
Wang Jianjun, Huang Chen, Lu Changming.Space-based Infrared Measurement Technology for Space Targets[J]. Journal of Aircraft Measurement and Control, 2016, 35(3): 169-174.
[11] 王朝卿, 沈小林, 李磊. 图像相似度计算算法分析[J].现代电子技术, 2019, 42(9): 31-34, 38.
Wang Chaoqing, Shen Xiaolin, Li Lei.Analysis of Image Similarity Calculation Algorithm[J]. Modern Electronic Technology, 2019, 42(9): 31-34, 38.
[12] 李钦, 游雄, 李科, 等. 基于相似矩阵自适应加权的实景图像相似度计算方法[J]. 模式识别与人工智能, 2017, 30(11): 1003-1011.
Li Qin, You Xiong, Li Ke, et al.Real-scene Image Similarity Calculation Method based on Adaptive Weighting of Similarity Matrix[J]. Pattern Recognition and Artificial Intelligence, 2017, 30(11): 1003-1011.

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无人机等效模拟高空侦察设备光学成像方法

An Equivalent Method of UAV Simulating High-altitude Reconnaissance Equipment Optical Imaging

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