论文:2023,Vol:41,Issue(1):115-124
引用本文:
杨杰, 占君, 陈志翔, 刘先一, 周志清, 李智. 弹道式杀爆弹打击掩蔽库飞机方案的优化方法[J]. 西北工业大学学报
YANG Jie, ZHAN Jun, CHEN Zhixiang, LIU Xianyi, ZHOU Zhiqing, LI Zhi. Optimization method of ballistic blast fragmentation warhead striking aircraft in aircraft shelter[J]. Journal of Northwestern Polytechnical University
弹道式杀爆弹打击掩蔽库飞机方案的优化方法
杨杰1, 占君1, 陈志翔2, 刘先一1, 周志清3, 李智4
1. 96901部队, 北京 100094;
2. 中国人民解放军火箭军士官学校, 山东 潍坊 262500;
3. 西北工业大学 电子信息学院, 陕西 西安 710072;
4. 陕西科技大学 数学与数据科学学院, 陕西 西安 710021
摘要:
为了评估弹道式杀爆弹打击掩蔽库飞机的经济性与可行性,以某典型飞机与单机/双机掩蔽库为研究对象,基于一/二次曲面拟合的思路,构建了飞机与掩蔽库的三维曲面模型;根据破片速度与位置模型,结合坐标系转换关系,给出了弹目交会算法;建立了飞机的毁伤树模型,得到了飞机毁伤概率计算方法;为了降低弹目交会计算量,提出了将目标区域网格化,网格点作为备选瞄准点的寻优策略,以及基于积分法的飞机平均毁伤概率计算方法;以全部飞机整体毁伤效果最优为目标,提出了基于改进粒子群算法的最小耗弹量与最优瞄准点寻优算法,并给出了打击方案优化方法;开展了杀爆弹对单机/双机掩蔽库飞机的打击方案优化仿真,仿真结果表明,低爆高、小CEP、多瞄准点组合打击等策略可有效降低最小耗弹量。
关键词:    杀爆弹    掩蔽库飞机    打击方案优化    粒子群算法    弹目交会   
Optimization method of ballistic blast fragmentation warhead striking aircraft in aircraft shelter
YANG Jie1, ZHAN Jun1, CHEN Zhixiang2, LIU Xianyi1, ZHOU Zhiqing3, LI Zhi4
1. Unit 96901 of PLA, Beijing 100094, China;
2. PLA Rocket Force Sergeant Academy, Weifang 262500, China;
3. School of Electronics and Information, Northwestern Polytechnical University, Xi'an 710072, China;
4. School of Mathematics and Data Science, Shaanxi University of Science and Technology, Xi'an 710021, China
Abstract:
For evaluating the economy and feasibility about blast fragmentation warhead striking aircraft in aircraft shelter, taking a typical aircraft and single/double aircraft shelter as study objects, based on the thought of simple/quadratic surface fitting, the 3D surface models of aircraft and shelter are built. According to the velocity and position model of fragment, combined with the transformation relationship of coordinate system, the missile-target encounter algorithm is given. The ruin tree model of aircraft is constructed to calculate the ruin probability algorithm of aircraft. For reducing the computation of missile-target encounter, a mean ruin probability algorithm of aircraft based on integration method is proposed, which slices target area to grids and takes grids as alternative aim point. Taking maximum to entire ruin effect of all aircrafts as target, the optimizing algorithm to strike scheme about minimum missile consumption and find best aim point based on advanced PSO algorithm are proposed. The striking scheme optimizing about fragmentation warhead striking aircraft in single/double aircraft shelter is simulated. The result shows that, low blast height, small CEP, combination strike strategy with multiply aim points can reduce the minimum missile consumption effectively.
Key words:    blast fragmentation warhead    aircraft in aircraft shelter    striking scheme optimization    PSO algorithm    missile-target encounter   
收稿日期: 2022-05-10     修回日期:
DOI: 10.1051/jnwpu/20234110115
通讯作者:     Email:
作者简介: 杨杰(1982-),96901部队助理研究员,主要从事火炮、自动武器与弹药工程研究。e-mail:yangjieflying@126.com
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参考文献:
[1] 李伟, 方洋旺, 王晓云, 等. 空地导弹对飞机掩蔽库的毁伤效能评估[J]. 火力与指挥控制, 2016, 41(5):52-55 LI Wei, FANG Yangwang, WANG Xiaoyun, et al. Study on damage assessment method of typical hard-target[J]. Fire Control & Command Control, 2016, 41(5):52-55 (in Chinese)
[2] 邓国强, 王安宝, 杨秀敏, 等. 配筋超高强混凝土抗侵彻性能对比试验研究[J]. 土木工程学报, 2021, 54(10):30-35 DENG Guoqiang, WANG Anbao, YANG Xiumin, et al. Comparative tests on anti-penetration performance of steel reinforced ultra-high-strength concrete[J]. China Civil Engineering Journal, 2021,54(10):30-35 (in Chinese)
[3] 钟锐, 张峰领. 超高性能混凝土、纤维增强高强及高延性混凝土抗侵彻性能比较[J]. 硅酸盐学报,2021, 49(11):2423-2434 ZHONG Rui, ZHANG Fengling. Resistance of ultra-high performance concrete, fiber reinforced high strength concrete and engineered cementitious composite against projectile penetration[J]. Journal of the Chinese Ceramic Society, 2021, 49(11):2423-2434 (in Chinese)
[4] 闫焕敏, 张志刚, 葛涛, 等. 防护工程中遮弹层的研究进展[J]. 兵器材料科学与工程,2016, 39(1):127-132 YAN Huanmin, ZHANG Zhigang, GE Tao, et al. Research progress of bursting layer in protection engineering[J]. Ordnance Material Science and Engineering, 2016, 39(1):127-132 (in Chinese)
[5] MOXNES J F, PRYTZ A K, FRФYLAND Фyvind, et al. Experimental and numerical study of the fragmentation of expanding warhead casings by using different numerical codes and solution techniques[J]. Defense Technology, 2014(10):161-176
[6] 陈新祥. 典型战斗部对飞机目标毁伤评估研究[D]. 北京:北京理工大学, 2016 CHEN Xinxiang. Damage assessment of typical warhead to aircraft[D]. Beijing:Beijing Institute of Technology, 2016 (in Chinese)
[7] 王国庆, 应国淼, 尤春涛. 破片式战斗部对飞机目标的杀伤方法[J]. 四川兵工学报, 2009,30(5):28-32 WANG Guoqing, YING Guomiao,YOU Chuntao. Destroy method of fragmentation warhead striking aircraft[J]. Journal of Sichuan Ordnance Engineering, 2009, 30(5):28-32 (in Chinese)
[8] 谢俊洁. 空战仿真中的目标分配与火力分配方法[D]. 长沙:国防科学技术大学, 2016 XIE Junjie. Target assignment and weapon-target assignment algorithms in air combat simulations[D]. Changsha:National University of Defense Technology, 2016 (in Chinese)
[9] 李小白. 欧洲"三雄"战斗机之一:法国"阵风"战斗机[J]. 军事文摘, 2019(1):24-27 LI Xiaobai. One of "Three Lions" fighter in Europe:french rafale fighter[J]. Military Abstract, 2019(1):24-27 (in Chinese)
[10] 卢军民. 固定翼飞机在破片式战斗部作用下易损性评估及仿真研究[D]. 南京:南京理工大学, 2006 LU Junmin. Vulnerability assessment and simulation research to fixed wing aircraft when fragmentation warhead striking[D]. Nanjing:Nanjing University of Science & Technology, 2019 (in Chinese)
[11] 汪德武, 李卫平. 杀爆战斗部破片对地面目标杀伤概率的工程算法[J]. 含能材料, 2007,15(3):265-268 WANG Dewu, LI Weiping. Engineering calculation method for the lethal probability of blast-fragmentation warhead[J]. Chinese Journal of Energetic Materials, 2007,15(3):265-268 (in Chinese)
[12] 王顺虹, 张新伟. 考虑杀伤元速度衰减时弹目交会研究[J]. 兵器装备工程学报, 2016,37(7):57-59 WANG Shunhong, ZHANG Xinwei. Study on missile-target encounter of calculating velocity attenuation of projectiles[J]. Journal of Armaments and Equipment Engineering, 2016,37(7):57-59 (in Chinese)
[13] 徐豫新. 破片杀伤式空导弹战斗部杀伤概率计算[D]. 太原:中北大学,2008 XU Yuxin. The simulation of damage probability on the fragment air-defence warhead[D]. Taiyuan:North University of China, 2008 (in Chinese)
[14] 司凯, 李向东, 郭超, 等. 破片式战斗部对飞机类目标毁伤评估方法研究[J]. 弹道学报, 2017,29(4):52-57 SI Kai, LI Xiangdong, GUO Chao, et al. Research on damage assessment method of fragmentation warhead against airplane targets[J]. Journal of Ballistics, 2017,29(4):52-57 (in Chinese)
[15] 高士英, 魏志毅. 杀爆战斗部对地面飞机的毁伤仿真研究[J]. 弹箭与制导学报, 2008,28(1):109-114 GAO Shiying, WEI Zhiyi. A simulation of surface airplane damage by blast-fragmentation warhead[J]. Journal of Projectiles, Rockets, Missiles and Guidance, 2008,28(1):109-114 (in Chinese)
[16] 秦宇飞, 周平, 李小雷. 地地导弹突击机场对停放飞机的毁伤效果评估[J]. 计算机仿真, 2009,26(2):84-88 QIN Yufei, ZHOU Ping, LI Xiaolei. Damage assessment of airplanes on the ground suddenly attacked by surface-to-surface missiles. Computer Simulation, 2009, 26(2):84-88 (in Chinese)
[17] 宫月红, 张少君, 王明雨, 等. 基于遗传-粒子群优化算法的USV路径规划方法[J]. 山东交通学院学报, 2022, 30(1):29-34 GONG Yuehong, ZHANG Shaojun, WANG Mingyu, et al. USV path planning method based on GA-PSO[J]. Journal of Shandong Jiaotong University, 2022, 30(1):29-34 (in Chinese)
[18] 高鹏, 徐豫新, 李可, 等. 火箭杀爆弹动爆毁伤幅员计算方法与可视化仿真实现[J]. 兵工学报, 2016,37(2):216-220 GAO Peng, XU Yuxin, LI Ke, et al. Modeling and visual simulation of dynamic explosion damage area of rocket blast-fragmentation warhead[J]. Acta Armamentarii, 2016,37(2):216-220 (in Chinese)

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