针对单基地地空导弹武器系统打击目标可靠性差,现有导弹系统网络抗毁性差的缺点,研究系统级地空导弹防御体系组网优化及其网络特性。在分析导弹发射区界线、毁伤概率、作战时间和威胁等级等因素的基础上,建立系统级地空导弹防御体系网络结构,并对其进行优化。运用小世界网络特性,研究网络优化前后的平均路径长度和局部群聚系数。通过仿真实验,验证了优化后的地空导弹防御体系系统级组网结构具有较小的平均路径长度和较大的局部群聚系数,提高了地空导弹防御体系的可靠性和抗摧毁性。 Aiming at the shortcomings of single-base SAM system, such as poor target hit reliability and poor survivability of the existing missile system network, the networking optimization of system-level surface to air missile defense system and its network characteristics are studied. Based on the analysis of missile launch area boundary, damage probability, combat time and threat level, the network structure of system-level SAM system is established and optimized. Using small-world network characteristics, the average path length and local clustering coefficient before and after network optimization are studied. Through the simulation experiments, it is verified that the system-level network structure of the optimized surface-to-air missile defense system has a smaller average path length and a larger local clustering coefficient, and improves the reliability and destructiveness of the surface-to-air missile defense system.