[1] 徐建志.反舰导弹捕捉能力建模与仿真[J].系统仿真学报,2008,20(4):874-877. XU Jian-zhi.Modeling and Simulating for Anti-Ship Missiles' Catch Capability[J].Journal of System Simulation,2008,20(4):874-877. [2] 李建华,王光源,毛世超,等.对抗条件下反舰导弹突击效能评估[J].海军航空工程学院学报,2018,33(3):318-322. LI Jian-hua,WANG Guang-yuan,MAO Shi-chao,et al.Research on Anti-Ship Missile Assault Effectiveness Evaluation Under Counter-Attack Conditions[J].Journal of Naval Aeronautical and Astronautical University,2018,33(3):318-322. [3] 王新宁,马震,唐震,等.远程反舰导弹捕捉概率影响因素[J].四川兵工学报,2009,30(8):14-17. WANG Xin-ning,MA Zhen,TANG Zhen,et al.Factors Influencing the Acquisition Probability of Long-Range Anti-Ship Missiles[J].Journal of Sichuan Ordnance,2009,30(8):14-17. [4] 罗木生,侯学隆,王宗杰,等.反舰导弹对岛礁区目标的搜捕概率研究[J].现代防御技术,2018,46(6):30-35. LUO Mu-sheng,HOU Xue-long,WANG Zong-jie,et al.Acquisition Probability of Anti-Ship Missiles for Targets in Reef Islands Areas[J].Modern Defence Technology,2018,46(6):30-35. [5] 赵喜春.反舰导弹靶标命中域综合研究[J].舰船电子工程,2017,37(11):122-125. ZHAO Xi-chun.Comprehensive Research of Target Hit Field of Anti-Ship Missile[J].Ship Electronic Engineering,2017,37(11):122-125. [6] 费惠佳,崔连虎.反舰导弹抗干扰性能分析与评估方法[J].弹箭与制导学报,2020,40(4):95-98. FEI Hui-jia,CUI Lian-hu.Anti-Jamming Performance Analysis and Evaluation Method for Anti-Ship Missile[J].Journal of Projectiles,Rockets,Missiles and Guidance,2020,40(4):95-98. [7] 宋琳.反舰导弹毁伤能力评估[J].战术导弹技术,1993(1):35-39. SONG Lin.Evaluation of Kill Capability of Anti-Ship Missile[J].Tactical Missile Technology,1993(1):35-39. [8] 倪春雷,姜鹏.反舰导弹战斗部对舰船毁伤效能试验评估方法研究[J].飞航导弹,2020(2):76-79. NI Chun-lei,JIANG Peng.Study on Evaluation Method of Anti-Ship Missile Warhead on Ship Damage Effectiveness Test[J].Aerodynamic Missile Journal,2020(2):76-79. [9] 曾家有,钟建林,汪浩.全系统对抗条件下反舰导弹突防能力计算模型[J].系统仿真学报,2009,21(19):6036-6038. ZENG Jia-you,ZHONG Jian-lin,WANG Hao.Computing Model of Anti-Ship Missile Penetration Capability Under Full System Countermeasures[J].Journal of System Simulation,2009,21(19):6036-6038. [10] 舒建生,姚群,武健,等.基于贝叶斯网络的常规导弹反舰作战效能评估[J].火力与指挥控制,2019,44(1):114-118. SHU Jian-sheng,YAO Qun,WU Jian,et al.Evaluation of Conventional Missile Anti-Ship Comabt Effectiveness Based on Bayesian Network[J].Fire Control & Command Control,2019,44(1):114-118. [11] 张海峰,于忠琳,谢宇鹏.基于贝叶斯-熵权法的岸舰导弹作战效能研究[J].海军航空工程学院学报,2020,35(4):310-315. ZHANG Hai-feng,YU Zhong-lin,XIE Yu-peng.Research on Combat Effectiveness of Shore to Ship Missile Based on Bayesian Entroy Weight Method[J].Journal of Naval Aeronautical and Astronautical University,2020,35(4):310-315. [12] 秦园丽,张训立,高桂清,等.基于ANP-熵权法的反舰导弹作战效能评估[J].兵器装备工程学报,2020,41(2):48-53. QIN Yuan-li,ZHANG Xun-li,GAO Gui-qing,et al.Effectiveness Evaluation of Anti-Ship Missile Combat System Based on ANP-Entropy Method[J].Journal of Ordnance Equipment Engineering,2020,41 (2):48-53. [13] 彭辞述,郭磊,汪志强.基于ADC法的防空导弹体系效能评估[J].舰船电子工程,2015,35(8):116-119,158. PENG Ci-shu,GUO Lei,WANG Zhi-qiang.Efficiency Evaluation Research on Air-Defense Missile Systems[J].Ship Electronic Engineering,2015,35(8):116-119,158. [14] 王君,赵杰,邵雷,等.基于ADC方法的地空导弹西永效能评估模型[J].现代防御技术,2015,43(6):13-20. WANG Jun,ZHAO Jie,SHAO Lei,et al.System Efficiency Evaluation Model of Ground to Air Missile Based on ADC Method[J].Modern Defence Technology,2015,43(6):13-20. [15] 颜仲新,高晓东,肖明.基于层次分析法的反舰导弹战斗部毁伤能力评估方法[J].兵工学报,2015,36(2):83-89. YAN Zhong-xin,GAO Xiao-dong,XIAO Ming.An Anti-ship Missile Warhead Lethality Assessment Method Based on Analytic Hierarchy Process[J].Acta Armamentarll,2015,36(2):83-89. [16] 夏维,刘新学,孟少飞,等.ADC改进模型评估导弹武器系统效能[J].现代防御技术,2017,45(2):30-39. XIA Wei,LIU Xin-xue,MENG Shao-fei,et al.Effectiveness Evaluation of Missile Weapon System Based on ADC Improved Model[J].Modern Defence Technology.2017,45(2):30-39. [17] 崔璨.基于改进ADC模型的某型舰载光电对抗系统的作战效能评估[J].电子质量,2015(7):27-30. CUI Can.An Operation Effectiveness Evaluation Based on an Advanced ADC Model of a Ship-Carrier Photo-Electrical Countermeasure System[J].Electronics Quality,2015(7):27-30. [18] 杨冬波.地空导弹武器系统效能评估[D].南京:南京理工大学,2013. YANG Dong-bo.Research on Effectiveness Evaluation of Surface-to-Air Missile System[D].Nanjing:Nanjing University of Science and Technology,2013. |