By employing an expendable repeater-type decoy that is known as efficient electronic countermeasure device, the survivability of an airborne platform can be improved. To optimize the survivability of the aircraft by managing the active decoy, analyzing which factors critically affect to the survivability is very important. For its dynamic situation, where the motions and interaction of the decoy, platform, and missile varied with respect to time, a modeling and simulation (M&S) approach is preferred, which can consider other factors: radio frequency specification of decoy, guidance model of the missile, and so on. Based on the proposed M&S approach, several crucial factors affecting to the survivability of the platform such as platform reaction range, platform maneuvering, decoy dynamics, missile's maximum load factor, etc., are addressed and numerically analyzed. Additionally, the survival probability of the platform is also simulated on several engagement scenarios through the Monte Carlo simulation.

中文翻译：

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具有消耗性主动诱饵对抗射频导弹的机载平台的生存性仿真

通过使用被称为高效电子对抗装置的一次性中继器型诱饵，可以提高机载平台的生存能力。为了通过管理主动诱饵来优化飞机的生存能力，分析哪些因素对生存能力有重要影响是非常重要的。对于诱饵、平台和导弹的运动和相互作用随时间变化的动态情况，首选建模和仿真 (M&S) 方法，该方法可以考虑其他因素：诱饵的射频规格、导弹的制导模型导弹等等。基于所提出的 M&S 方法，影响平台生存能力的几个关键因素，如平台反应范围、平台机动、诱饵动力学、导弹的最大载荷因子等，进行了处理和数值分析。此外，平台的生存概率也通过蒙特卡罗模拟在多个交战场景中进行了模拟。