激光指示器

  • 网络Laser pointer;Laser Designator
激光指示器激光指示器
  1. 对提高激光指示器参数检测精度有着重要意义。

    It is a meaningful thing to improve the test accuracy of laser designator .

  2. 侦查(3)-获得激光指示器,运动传感器,和空袭。

    Reconnaissance ( 3 ) - Unlocks Laser Designator , Motion Sensor , and Airstrike .

  3. 系统主要构成:自动铅垂仪、激光指示器、固定靶板、面阵CCD图像传感器、图像采集卡、计算机及控制处理软件等部分。

    The system is composed of laser source , linear solid target , CCD , imaging data board , computer and its software unit for signal processing .

  4. 去年,飞机制造商空客(Airbus)宣布将与加拿大LamdaGuard公司合作,测试一种由超材料制成的驾驶舱窗户保护层,以使商用飞机飞行员的视力免受激光指示器的影响。

    Last year , the aircraft manufacturer Airbus announced that it was joining with Lamda Guard , a Canadian company , to test a metamaterial-based coating for cockpit windows to protect pilots in commercial aircraft from being blinded by laser pointers .

  5. 直升机载激光指示器发射末制导炮弹射击效能分析

    Operational Effectiveness Analysis of Firing Terminally Guided Shell by Laser Indicator on Helicopter

  6. 如果你没有根据激光指示器校正好目标从而很好地投下弹药,就重来一次。

    If you can 't acquire a laser designator target fast enough to align and drop ordnance properly , make another pass .

  7. 将形成靶标的激光指示器同图像采集器结合为同一整体,是保证位姿测量的数学模型简单化的关键问题。

    The key work to guarantee the mathematical model simple was making the laser designator forming the target and the camera to be a whole body .

  8. 半导体激光指示器由于方向性好、可见、直观等特点,已广泛应用于轻武器系统,实现武器系统近距离快速瞄准。

    Semiconductor laser designator is widely used in small arms system because of its well-orientation , visible and intuitive , which can realize the weapon system quickly aimed at close range .

  9. 激光指示器是安装在轻武器上,用于在夜间或者低照度环境下,快速准确瞄准近距离目标的一种光学瞄具。

    The Laser Designator that mounted on light weapons , is a kind of optical sights that can aim the near target quickly and accurately at night or low light conditions .

  10. 文中通过机载激光指示器的组成分析了它的误差源、影响系统精度的因素以及其可控制的误差范围。

    The error sources , factors of effect on accuracy and the controllable error range of airborne laser designator are discussed , through the components of airborne laser designator in this paper .

  11. 此外在模拟器旋转中心和模拟光源光轴中心安装有激光指示器,更容易确定模拟光回转锥面的锥点,减小了系统的调整时间。

    Furthermore , we also install laser-target indicators on the rotating center of detection device and simulate light , it is easy to find the conical point and reduce the adjusting time .

  12. 介绍了激光指示器的光轴调校原理,建立了调校装置,对脉冲激光能量分布进行了分析,对激光光斑中心进行了计算。

    The principle of rectifying of the optical axis of the laser ranger director , and the rectifying device was introduced , then the energy district of the laser pulse was analyzed , and the center of the energy of the laser pulse was calculated .

  13. X射线照相用激光中心指示器

    Laser centring device for X-Radiography

  14. 机载激光目标指示器发展综述

    Words and Register Review on Development of Airborne Laser Target Designator

  15. 激光照射指示器束散角数字化检测方法研究

    Study on Digital Method of Measuring Laser Diverging Angle from Irradiator

  16. 激光目标指示器的两个主要功能是为寻的武器提供目标指示和测距。

    The laser target designator has two functions which are guidance and range finding .

  17. 激光测距/目标指示器中的激光器

    The Laser Device in Laser Rangefinder / Target Designator

  18. 在对激光测距/目标指示器原理样机中的激光器性能分析的基础上,对激光器的设计方案作了详细研究论证。

    Based on analyses of the performance of the laser device in the laser rangefinder / target designator of prototype , the design of the laser device in engineering type is studied and demonstrated in detail .

  19. 激光末端制导武器系统中,激光照射指示器出射激光的束散角是一个重要的参数。

    In laser control and guide system , diverging angle of laser beam is an important parameter .

  20. 而激光制导武器投放的主要误差来自于激光目标指示器的指示误差。

    However , delivery error of LGWs are mainly the designation error from laser designator .

  21. 根据激光末端制导的工作原理,分析了激光照射指示器的性能指标,提出了各性能指标的数字化检测方法。

    According to the principle of laser terminal guidance , some important performances of laser radiation indicator are analyzed and the numeralization test method is introduced .

  22. 利用激光制导导弹光电干扰弹道仿真软件,仿真研究了激光指示器有效制导距离对激光制导导弹作战效能的影响。

    Based on the trajectory simulation software of the laser-guided-missile ( LGM ), the relation between the efficiency of the LGW and the effective-guided-range of the laser indicator is studied .