[1] Department of Defense. Ballistic missile defense review report[R]. Washington, DC: Department of Defense, 2012. [2] Obama B. National security strategy of the United States (2010)[R]. Washington, DC: The White House, 2010:1-51. [3] 符俊, 蔡洪, 张士峰, 等. 航天器远程最优拦截方法研究[J]. 固体火箭技术, 2011, 34(6): 682-686. FU Jun,CAI Hong,ZHANG Shi-feng, et al. Research on spacecraft long-range optimal interception[J]. Journal of Solid Rocket Technology,2011, 34(6): 682-686. (in Chinese) [4] Su L, He J H, Wang J Q. Assessment for effectiveness of missile-gun integrated weapon system based on FSKA model[C]∥International Conference on Electric Information and Control Engineering. Wuhan, China: IEEE, 2011: 191-195. [5] Lape N J. Measuring the effectiveness of the conus air and missile defense C2 system[R]. New York: United States Military Academy, West Point, 2011:1-80. [6] 王成思, 刘明阳, 宋晋敏. 末段反导武器配系部署规划研究[J]. 现代防御技术, 2015, 43(6):87-92. WANG Cheng-si, LIU Ming-yang, SONG Jin-min. Optimal deploy of terminal segment missile defense weapon[J].Modern Defence Technology, 2015, 43(6):87-92.(in Chinese) [7] Larson E V, Kent G A. A new methodology for assessing multilayer missile defense options[R]. Santa Monica: RAND, 1994:1-66. [8] Ender T, Leurck R F, Weaver B, et al. Systems-of-systems analysis of ballistic missile defense architecture effectiveness through surrogate modeling and simulation [J]. IEEE Systems Journal, 2010, 4(2): 156-166 [9] Wilkening D A. A simple model for calculating ballistic missile defense effectiveness [J]. Science & Global Security, 2000, 8(2): 183-215. [10] 高恩宇, 刘晓坤. 弹道导弹防御系统拦截概率的简化模型[J]. 导弹与航天运载技术, 2013 (3): 35-38. GAO En-yu, LIU Xiao-kun. Simplified model for intercepting probability of ballistic missile defense system[J].Missiles and Space Vehicles, 2013(3): 35-38. (in Chinese) [11] 徐品高. 点防空导弹武器系统拦截方案与火力分配[J]. 战术导弹技术, 1993(1):7-17. XU Pin-gao. Interceptor mechanism and firepower assignment for point-defense missile system [J]. Tactical Missile Technology, 1993(1): 7-17. (in Chinese) |