本文主要分析采用光纤前端的光学天线阵列激光告警器结构原理,以及其方位识别方法。
This thesis mainly introduces optical antenna arrays and coding method of laser warning system using optical fiber front end technology.
此检测系统进行了多次实验,验证了本文提出的激光告警器告警精度检测方法的可行性。
The detection system carried out several experiments presented in this paper verify the detection method of alarm precision of laser warning device is feasible.
利用聚类概念,对激光告警器测量数据进行集类,并对各个类对应的目标状态进行空间-时间融合。
The clustering concept is applied to the measurements of the laser warner, and space-time fusion for the measurements in the same cluster is made.
重点探讨了后勤机动装备加装激光告警器的必要性和可行性,并对激光告警器设计方案进行了初步论证。
Both the necessity and feasibility of laser passive reconnaissance warning devices being attached to our logistic equipment are discussed, with a tentative plan of the device demonstrated.
激光告警器在复杂战场环境下长时间、大空域进行警戒时,必须采取有效的抗干扰措施来大幅度降低其虚警率。
Should take effective anti-interference measures to reduce the false alarm rate laser warning apparatus in complicated battlefield environment when its guarding in large field for a long time.
文章针对车载式激光告警器探测距离,分别对激光告警接受机的信噪比和灵敏度进行了分析计算,为系统设计和研制提供依据。
The reconnaissance distance of vehicular laser passive reconnaissance warning device was discussed in the paper. The signal to noise ratio and sensitivity of the laser detection were analyzed.
利用四路红外非制冷焦平面探测器、大视场光学系统、窄带滤光片和信号处理系统,构成了凝视成像激光探测与告警系统。
A staring imaging laser detecting and warning system is formed by using 4-channel uncooled infrared focal plane detectors, large field optical system, narrow band filters and signal processing system.
利用四路红外非制冷焦平面探测器、大视场光学系统、窄带滤光片和信号处理系统,构成了凝视成像激光探测与告警系统。
A staring imaging laser detecting and warning system is formed by using 4-channel uncooled infrared focal plane detectors, large field optical system, narrow band filters and signal processing system.
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