一种舰空导弹武器系统抗饱和攻击能力模型

A Model of Ship-to-air Missile Weapon System Intercepting Ant-ship Missile's Saturation Striking

舰空导弹武器系统抗饱和攻击能力是水面舰艇生存能力的重要效能指标 ,但计算模型仍是一个正在探索的问题。反舰导弹入射流通常假设为POISSON流[1 ] ,通过举例验证有组织的反舰导弹入射流 (饱和攻击 )更接近均匀分布事件。基于这一分布特征 ,将舰空导弹武器系统及每枚舰空导弹服务于每枚来袭反舰导弹的过程抽象为期望服务时间模型 ,并在此基础上建立了舰空导弹武器系统连续拦截反舰导弹的能力模型———舰空导弹武器系统抗饱和攻击能力模型。仿真结果基本显示了舰空导弹武器系统连续拦截反舰导弹的过程 ;该模型不仅可用于舰空导弹武器系统抗饱和攻击能力的计算 ,也可用于确定给定舰空导弹武器系统的最优配置方案。

The capability of ship-to-air missile system continuous intercepting anti-ship missile's saturation striking is an very important norm of warship's survivability, but the model to calculate it is still under researching. The organized ant-ship missile saturation striking is always assumed as a POISSON , examples show that it is even near a uniform distribution. Based on that, the process of ship-to-air missile weapon system and every ship-to-air missile serving every anti-ship missile is expressed by expected time. And the model of ship-to-air missile system continuous intercepting anti-ship missile's saturation striking is established. Emulating basically shows the process of ship-to-air missile weapon system intercepting anti-ship missile's saturation striking. Not only can this model be used to calculate the capability described above, but also the optimum constitution of a given ship-to-air missile weapon system.