红外干扰弹与舰空导弹火力冲突检测及消解

对具有红外制导功能的来袭反舰导弹, 水面舰艇需要使用红外干扰弹和舰空导弹协同抗击, 但必须避免出现火力冲突。在分析红外干扰弹与红外制导舰空导弹协同抗击态势的基础上, 建立了两者之间的火力冲突判断模型, 采用仿真的方法在协同抗击全过程动态检测红外干扰弹与红外制导舰空导弹之间是否存在火力冲突, 并给出了消除冲突的策略。实例计算结果验证了模型和方法的有效性, 对提高水面舰艇软硬**协同使用效能具有应用价值。

Abstract

When attacked by the Anti-Ship Missile (ASM) with infrared guidance function, the surface warship need to use Infrared Decoy(ID) and infrared guidance Ship-to-Air Missile (SAM) cooperatively in reaction, where firepower conflict must be avoided. Analysis is made to the cooperative combat situation of ID with SAM, based on which a firepower conflict model is established. Then the simulation method is adopted to detect whether the firepower conflict between ID and SAM is existed or not during the combat, and a strategy of conflict resolution is given. The calculation results prove the validity of the model and the method, which can improve the anti-missile effectiveness of surface warship when using soft and hard weapons cooperatively.

参考文献

[1] 陈奇, 马威, 姜宁. 箔条干扰与副炮系统战斗使用电磁兼容模型［J］. 火力与指挥控制, 2007, 32(10): 112-115. （CHEN Q, MA W, JIANG N. A warfare using electromagnetic compatibility model of decoy jamming with close-in weapon system［J］. Fire Control and Command Control, 2007, 32(10): 112-115. ）

[2] 席晓芸. 软硬反导防御武器综合使用方式应用分析［J］. 舰船电子工程, 2011, 31(4): 10-14. （XI X Y. Application analysis of integrated using methods of soft and hard anti-missile defense weapon［J］. Ship Electronic Engineering, 2011, 31(4): 10-14. ）

[3] 周玺, 陆勤夫, 尹海, 等. 箔条质心干扰与舰空导弹综合反导兼容性研究［J］. 现代防御技术, 2011, 39(3): 10-13. （ZHOU X, LU Q F, YIN H, et al. Antimissile compatibility between chaff centroid jamming and ship to air missile［J］. Modern Defence Technology, 2011, 39(3): 10-13. ）

[4] 秦剑冬, 邢昌风, 吴玲. 舰载软硬武器协同反导兼容性问题研究［J］. 舰船科学技术, 2012, 34(7): 114-117．（QIN J D, XING C F, WU L. Research on the compatibi-lity of shipboard soft and hard weapons for cooperative anti-missile［J］. Ship Science Technology, 2012, 34(7): 114-117. ）

[5] 邹积斌, 姜宁. 软硬武器协同反导中的电磁兼容问题研究［J］. 舰船电子工程, 2014, 34(10): 145-148. （ZOU J B, JIANG N. Research on electromagnetic compatibility problem of hard and soft weapon antimissile coordinated［J］. Ship Electronic Engineering, 2014, 34(10): 145-148. ）

[6] 苏亮, 宋江涛, 茆明. 电子对抗与舰空导弹系统综合反导的电磁兼容的初步分析［J］. 现代防御技术, 2007, 35(4): 19-21. （SU L, SONG J T, MAO M. Study on the problem of EMC of integrated anti-missile operation of ECM and SAM［J］. Modern Defence Technology, 2007, 35(4): 19-21. ）

[7] 马野, 贾春. 舰载防空武器系统协同使用的电磁兼容性分析［J］. 现代防御技术, 2008, 36(6): 45-47. （MA Y, JIA C. Study on the compatible electromagnetism of shipboard aerial defence weapon system cooperative ［J］. Modern Defence Technology, 2008, 36(6): 45-47. ）

[8] 高光磊, 周怀平, 顾炳永. 冲淡干扰对雷达/红外双模复合制导技术的影响［J］. 飞航导弹, 2010(8): 76-78. （GAO G L, ZHOU H P, GU B Y. Dilution jamming effect on radar & infrared compound guidance technology［J］. Aerodynamic Missile Journal, 2010(8): 76-78. ）

[9] 魏暄荪, 刘昌礼, 黄长强. 导弹/弹丸飞行力学［M］. 西安: 空军工程学院, 1996. （WEI X S, LIU C L, HUANG C Q. Missile/projectile flight mechanics［M］. Xi'an: Air Force Engineering Academy Press, 1996. ）

王慕鸿, 周智超, 冷画屏. 红外干扰弹与舰空导弹火力冲突检测及消解[J]. 电光与控制, 2016, 23(2): 31. WANG Mu-hong1'2, ZHOU Zhi-chao1, LENG Hua-ping1. Detection and Resolution of Firepower Conflict Between Infrared Decoy and Ship-to-Air Missile[J]. Electronics Optics & Control, 2016, 23(2): 31.

红外干扰弹与舰空导弹火力冲突检测及消解

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