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高能激光武器作战成本低、发射速度快、附带损伤小,可经济高效对抗低慢小目标。将高能激光武器融入舰艇作战系统,有利于提高未来海战中舰船生存能力和作战效能。在调研国内外相关研究进展基础上,围绕舰载高能激光传输和毁伤机理,分析提出了舰载高能激光武器协同作战运用面临的主要问题,结合模糊数学、马尔科夫决策链等理论方法,并从使用约束、协同模型和冲突消解三方面构想了高能激光武器协同作战关键技术途径。
Abstract:High-energy laser weapons have low combat cost, fast launch speed and small collateral damage, which can be used cost-effectively against small, slow and low-profile targets. Integrated with current ship-borne weaponry system, high-energy laser weapons are conducive to improving the survivabitity and combat effectiveness of naval vessels. On the basis of researching relevant research at home and abroad,the main problem of using high-energy laser weapons in the cooperative combat for ships is analyzed by focusing on laser damage and propagation principle. On basis of methods like fuzzy mathematics, Markov decision chain etc., key techniques of high-energy laser weapon in cooperative combat are proposed in terms of usage constraints, coordination modeling and conflict resolution.
[1]杨剑波,宗思光,陈利斐.高功率激光武器进展与启示[J].激光与红外,2021,51(6):695-704.
[2]徐东翔.舰载激光武器毁伤能力的建模与仿真[J].系统仿真技术,2021,17(2):94-97.
[3]何奇毅,宗思光.舰载激光武器发展进展与思考[J].激光与红外,2017,47(12):1454-1460.
[4]易亨瑜,齐予,易欣仪,等.美国舰载激光系统的成熟度评估[J].应用光学,2021,42(1):9-15.
[5]程立,童忠诚.海基激光武器的作战应用及其对抗措施[J].舰船电子工程,2019,29(2):8-10.
[6]杨荣军,李长军.粒子群算法在激光武器反无人机火力分配中的应用[J].指挥信息系统与技术,2021,12(5):70-75.
[7] Lionis A,Tsigopoulos A,Cohn K. An application of artificial neural networks to estimate the performance of high-energy laser weapons in maritime environments[J].Technologies,2022,10(3):71.
[8] Bernatskyi A, Sokolovskyi M. History of military laser technology development in military applications[J]. History of science and technology, 2022, 12(1):88-113.
[9] Kaushal H,Kaddoum G. Applications of lasers for tactical military operations[J]. IEEE Access, 2017, 5:20736-20753.
[10] Danson C N,White M,Barr J R,et al. A history of high-power laser research and development in the United Kingdom. High Power Laser Science and Engineering[J],2021,9(18):1-86.
[11] O’Rourke R. Navy lasers, railgun and gun-launched guided projectile:Background and issues for congress[R]. CRS Report No RL44175,Congressional Research Service:Washington,DC,USA,2021.
[12] Trevithick J. The amphibious warship USS Portland has shot down a drone with its new high-power laser[EB/OL]. 2020-05-22[2021-05-29]. https://www. thedrive. com/the-war-zone/33634/the-amphibious-warship-uss-portland-has-shot-down-a-drone-with-its-newhigh-power-laser.
[13]王海涛.激光武器关键技术及典型作战模式分析[J].航空兵器,2020,27(2):25-31.
[14] Syed A A,Mujahid M,Syed M Z A. Survey and technological analysis of laser and its defense applications[J]. Defence Technology,2021,17:583-592.
[15] Kline A,Ahner D,Hill R. The weapon-target assignment problem[J]. Computers and Operations Research,2019(105):226-236.
[16]雷肖剑,谭乐祖,朱悦萌.大型驱逐舰多层防空动态武器火力分配模型研究[J].战术导弹技术,2014,(3):39-44.
[17] Guo D,Liang Z X, Jiang P,et al. Weapon-target assignment for multi-to-multi interception with grouping constraint[J]. IEEE Access,2019(7):34838-34849.
[18] Wang Y J,Fang W,Lin C,et al. Air-defense decision-making model of single ship CGF based on the theory of fuzzy mathematics and behavior tree[C]. Proceedings-2020 2nd International Conference on Information Technology and Computer Application, ITCA 2020,2020,Guangzhou:755-759.
[19] Pan Q, Zhou D Y,Tang Y C,et al. A novel antagonistic weapon-target assignment model considering uncertainty and its solution using decomposition co-evolution algorithm[J]. IEEE Access,2019(7):37498-37517.
[20]孙海文,谢晓方,庞威,等.基于改进火力分配模型的综合防空火力智能优化分配[J].控制与决策,2020,35(5):1102-1112.
[21] Yun Q,Song B,Pei Y. Modeling the impact of high energy laser weapon on the mission effectiveness of unmanned combat aerial vehicles[J]. IEEE Access,2020(8):32246-32257.
[22] Ghosh S,Syed A,Nayak J. Power requirement estimation of directed energy system for static and dynamic target[C]. 2019 Workshop on Recent Advances in Photonics(WRAP),Guwahati,India,2019:1-3.
[23] Roso N A,Moreira R D C,Oliveira J E B. High power laser weapons and operational implications[J]. Journal of Aerospace Technology and Management,2014,6(3):231-236.
[24]张朱峰,吴玲.编队区域防空舰空导弹冲突判断与消解[J].现代防御技术,2019,47(4):52-58.
[25]王超,王家文.基于协商的舰艇编队协同防空决策冲突消解[J].舰船电子工程,2019,39(4):14-17.
[26]王慕鸿,张浩,徐圣良.两栖攻击舰对空自防御作战软硬武器火力冲突检测及消解[J].指挥控制与仿真,2020,42(6):122-126.
Basic Information:
DOI:10.16358/j.issn.1009-1300.20220188
China Classification Code:TJ95
Citation Information:
[1]孙苗苗,孟祥慈,白奕.高能激光武器协同作战运用关键技术分析[J].战术导弹技术,2023,No.220(04):126-133+141.DOI:10.16358/j.issn.1009-1300.20220188.
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