以达到给定的射击效率为条件,以武器系统的地面机动能力最高为目标的设计方法,可以定量地确定地空导弹武器系统的最优目标通道数和导弹的最优射程,与此同时,还可以确定最优单次射击杀伤概率和最优单发杀伤概率。 分析表明:1.计入战斗工作可靠性时,武器系统的总质量增大,战斗工作可靠性系数越低,武器系统的总质量越大,地面机动能力越差。如果战斗工作可靠性系数随射程的增大而下降(通常是这样),那么在相当大的范围内战斗工作可靠性系数对最优射程的影响不大。 2.在计入战斗准备可靠性时,最优目标通道数一般要大于所射击的典型目标群的目标数;公用部分和目标通道的战斗准备程度系数越低,最优目标通道数越大。 3.计入战斗准备程度系数时,导弹的最优射程减小或有减小的趋势,而武器系统的总质量稍有增大。 In order to achieve the given shooting efficiency as the condition, the highest ground maneuvering capability of the weapon system is the target design method, which can quantitatively determine the optimal number of target lanes and missile’s optimal range of the surface-to-air missile weapon system. At the same time, You can also determine the optimal single shot kill probability and the optimal single shot kill probability. The analysis shows that: 1. Including the reliability of combat work, the total mass of weapon system increases, the lower the reliability coefficient of combat work, the greater the total mass of weapon system and the worse the maneuverability of ground. If combat reliability coefficient decreases with the increase of range (usually), the reliability coefficient of combat work has little effect on the optimal range over a relatively large range. 2. When considering the reliability of battle preparation, the optimal target passage number is generally larger than the target number of the typical target group shot; the lower the combat readiness coefficient of the common part and the target passage, the larger the optimal target passage number. 3. Into the combat readiness coefficient, the optimal range of the missile decreases or decreases, while the total mass of the weapon system slightly increases.