美陆军导弹司令部研究、发展与工程中心的先进传感器管理局目前正在制造一种设备,用来测定红外成象导引头的性能。这种设备的基础是要开发如非瞄准线导弹系统(NLOS)(红外型)及中型先进反坦克武器系统(AAWS-M)等这样一些系统。这两种系统采用先进的导引头技术,直到组合凝视焦平面阵列。先进传感器管理局自1978年以来在“狱火”和“铜斑蛇”半主动激光导引头计划的支持下,已经制成了激光导引头性能自动评估系统(ALSPES),而制造红外成象导引头性能自动评估系统(AIISPES)设备则是该项成果在红外导引头的自然扩展。AIISPEs设备将能进行传统的红外测试,诸如最小可分辨温度(MRT)、等效噪声温差(NETD)及其他传感器特性的测试。在AIISPES与用来评估红外传感器性能的其他设备之间,唯一区别是AIISPES是为测量关键的导引头特性参数而制造的。为此,它需要完成阈值灵敏度、自动增益控制校正、传递函数、静态跟踪率误差、制导噪声和动目标测试等工作。 The Advanced Sensor Administration at the Research, Development and Engineering Center of the US Army’s Command Center for Missile Missiles is currently developing a device to determine the performance of infrared imaging seekers. The basis for such equipment is the development of systems such as NLOS (Infrared) and Medium Advanced Anti-tank Weapon Systems (AAWS-M). Both systems use advanced Seeker technology until the combination of the Gaze Plane Array. The Advanced Sensor Administration has produced Laser Seeker Performance Automated Evaluation Systems (ALSPES) with the support of the “Hellfire” and “Copperhead” semi-active laser seeker programs since 1978 and has made infrared The AIISPES device is the natural extension of this work to infrared seeker. AIISPEs devices will perform traditional infrared tests such as minimum resolvable temperature (MRT), equivalent noise temperature difference (NETD), and other sensor characteristics. The only difference between AIISPES and other devices used to evaluate the performance of infrared sensors is that AIISPES is manufactured to measure key seeker characterization parameters. To do this, it needs to complete threshold sensitivity, automatic gain control correction, transfer function, static tracking error, guidance noise and moving target testing.