舰空导弹负责对来袭的低空反舰导弹进行拦截。舰载对空传感器(搜索雷达、红外警戒设备、跟踪雷达、光电跟踪仪和电子侦察设备)对目标进行探测,为舰空导弹提供目标指示信息。为提高捕获目指精度进而提高对来袭导弹的稳定跟踪能力,将传感器融合理论和效能评估方法引入复杂环境中的舰载传感器综合使用,构建了一个传感器综合使用仿真系统,完成对舰载对空传感器的能量级建模,并针对单枚和两枚导弹来袭进行流程设计和仿真,进行效能评估得到不同环境条件下的最佳流程通道。该研究对提高舰艇自防御成功概率有重要意义,对多目标来袭的通道组织和传感器的资源配置有指导性的作用。 Ship-to-ship missiles are responsible for intercepting the incoming low-altitude anti-ship missiles. Shipboard airspace sensors (search radar, infrared warning equipment, tracking radar, photoelectric trackers and electronic reconnaissance equipment) to detect the target, for the purpose of providing guidance for ship-to-air missile information. In order to improve the accuracy of captured fingerprints and improve the tracking capability of incoming missiles, the sensor fusion theory and effectiveness evaluation method are introduced into the complex environment of carrier-based sensors to construct a comprehensive sensor simulation system, The energy level of the sensor is modeled, and the flow design and simulation are carried out for single and two missiles to carry out performance evaluation to get the best flow path under different environmental conditions. The research is of great significance to improve the probability of successful self-defense of naval vessels and plays an instructive role in the resource allocation of multi-target corridors and sensors.