1) optoelectronic sight
光电瞄具
1.
The lead of the optoelectronic sight is a lead value of weapon hitting points relative to target current points in pitch and azimuth on the case of hitting moving targets.
光电瞄具提前量是指武器命中运动目标情况下,在俯仰和方位上赋予武器命中点相对于目标现在点的提前值。
2.
The structure and theory of the display system for a new type of small arms optoelectronic sight is introduced.
本文介绍了一种新型轻武器光电瞄具显示系统的结构和工作原理 ,利用数字信号处理器(DSP)的同步串行接口 ,以 10MHz速率产生视频字符的点阵信号 ,同时利用可编程逻辑器件 (PLD)产生大、小十字丝 ,最后将它们与视频信号叠加并在寻像器上显示出来。
4) the optic aiming device
光学瞄具
1.
The zero position walking momentum is the changing quantity of the sighting lineobject space angle fire and the quantitative evaluation index of the optic aiming device.
零位走动量即瞄准线物方角度射击前后变化量,是光学瞄具稳定性定量评价指标。
2.
The variational momentum of the zero position is that the sighting line of object space changing quantity after the fire, is the quantitative evaluation target of the optic aiming device.
零位走动量即瞄准线射击前后变化量,是光学瞄具稳定性定量评价指标。
5) optical pointing system
光学瞄具
1.
Research on Testing System of Image and Graduation Lean of Optical Pointing System for Gun;
枪用光学瞄具像倾斜、分划倾斜测试系统研究
2.
To meet the testing demand of tilt lean of optical pointing system for gun,automatic measurement for graduation lean of optical pointing system with CCD camera and digital image processing is implemented after analyzing conventional measuring method.
针对枪用光学瞄具分划倾斜的测试要求,在结合分析了传统主观测试方法之后,提出一种利用CCD摄像技术、数字图像处理技术等实现对光学瞄具分划倾斜的高精度自动测量方法。
6) optical collimator
光学瞄具
1.
This paper has established a mathematical model for an intension shooting stimulant system of small arms optical collimator by simplifying the system.
通过简化光学瞄具冲击系统,对轻武器光学瞄具强度射击模拟系统建立了数学模型,对以板弹簧作为模拟系统的弹性阻尼进行了设计,并用m atlab软件simu link工具箱对冲击系统进行了仿真,通过仿真系统所得曲线与实际实验所得曲线的对比分析证明了弹性阻尼设计的合理性,为实际设计提供了一定的理论基础。
2.
According to the demand of small arm optical collimator’s finalization experiment, this dissertation mainly designs a stimulant shock test-bed in order to partly take the place of the ball firing method which is adopted in the process of optical collimator’s finalization experiment.
本文针对当前轻武器光学瞄具定型试验的需要,设计了一种冲击模拟试验系统,目的是在一定程度上替代目前光学瞄具定型试验所采用的实弹射击方法。
补充资料:光电对抗侦察(见光电对抗)
光电对抗侦察(见光电对抗)
electro-optical reconnaissance of electronic warfare
guangdian duikang zheneha光电对抗侦察(elee‘ro一op‘ical reconnais-sanee ofeleetronicwarfare)见光电对抗。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条