激光器于60年代首次应用于火控系统,目前已成为许多新系统和现有系统的必要条件。在许多情况下,激光器是主要任务性能中的关键因素。在一些应用中,将激光器与前视红外(FLIR)探测系统和跟踪器组合起来,从而构成用激光瞄准和跟踪目标的装置。为了使激光器和前视红外系统以最佳性能工作,在设计过程中尽早地弄清楚这两个器件的特殊要求、它们之间的相互影响以及提出它们的组合方式是非常重要的。通常是将用于目标指示和测距的Nd:YAG激光器和主要用于测距的CO_2激光器与火控系统组合。FLIR系统设计者一定要了解这些不同的激光器类型及其具体性能,因为其类型和性能都对FLIR的性能有影响。新式武器系统的要求是对激光器-传感器组合提出了附加的使用要求,以制作出一种主动/被动传感器组合。例如,通过组合的FLIR和差分吸收LIDAR进行逐点探测。另外,低空导航通过直升机的有线传感器来识别障碍物。传感器组合可满足未来的空对地、地对地和地对空任务要求。 First applied to fire control systems in the 1960s, lasers have become the prerequisite for many new and existing systems. In many cases, lasers are a key factor in mission-critical performance. In some applications, a laser is combined with a forward looking infrared (FLIR) detection system and a tracker to form a device that targets and tracks the target with a laser. In order for the laser and the forward-looking infrared system to work optimally, it is important to understand the specific requirements of the two devices as early as possible during the design process, how they interact, and how they are put together. It is common to combine Nd: YAG lasers for target indication and ranging and CO 2 lasers, which are mainly used for ranging, with fire control systems. FLIR system designers must be aware of these different laser types and their specific performance as both their type and performance have an impact on the performance of FLIR. The requirement of the new weapon system is to place additional demands on the laser-sensor combination to make a combination of active / passive sensors. For example, point-by-point probing with combined FLIR and differential absorption LIDAR. In addition, low-altitude navigation through the helicopter wired sensor to identify obstacles. Sensor combination to meet future air-ground, ground-to-ground and ground-to-air mission requirements.