基于空间信息的网络瞄准系统可以对时间敏感目标进行快速地发现、识别、跟踪、定位和打击。
The networked targeting system based on spatial information can perform fast detecting, identifying, tracing, positioning, and striking of time-sensitive targets.
引入PID控制算法,运用了MATLAB作为仿真工具,分别完成了粗精跟踪瞄准系统的机电动力学仿真。
And the electromechanical simulation of coarse and fine tracking aiming system is done respectively which take the PID as algorithm for control, and MATLAB as tool for simulation.
描述了空间光通信中的捕获、跟踪与瞄准(atp)系统的概念、作用。
The concept and function of Acquisition, Tracking and Pointing (ATP) system in space optical communication are described.
整个测量系统包括激光捕获、跟踪和瞄准三个工作过程。
The whole measuring system including laser capture, track and target the three working process.
在天文望远镜、激光通讯、图象稳定系统、自适应系统、跟踪瞄准和激光发射光学系统中广为应用。
As a sensitive instrument, it is very significant in astronomical telescope, laser communication, tracking and sighting system, picture stability optical system and autoadaptation optical system, etc.
雷达系统对空搜索,发现和跟踪目标,并将目标的方位、高低等信息通过串口传给电子瞄准镜系统。
The radar searches and tracks the objects. As the same time, the azimuth and height information of the object will be sent to electronic collimation system through UART.
在系统组成上,主要包括跟踪瞄准图像摄取分系统,数据记录处理显示分系统,工作车和保障系统等。
The system include subsystem such as Picture of Track and Aim Ingesting system (PTAIS), Data Recording and Processing system (DRPS), a car, and so on.
利用光束的合成孔径系统,通过控制子孔径系统发射光束的相位,可以实现光束的快速瞄准、跟踪及合成。
The beams pointing, tracking and combining can be realized quickly by means of the phase control of the synthetic aperture system.
视轴变化将引起跟踪瞄准系统的误差。
研制的“37火控系统基础练习检测器”具有模拟激光测距,检测跟踪测速是否准确,实施二次瞄准等一系列适应新式火控系统训练需要的功能。
Type 37 fire control system training detector possesses such functions as simulating laser range finding, detecting if tracing and speed - measuring is accurate and conducting second aim.
捕获、跟踪、瞄准(atp)子系统是自由空间光通信系统的关键技术之一。
Acquisition, Tracking and Pointing (ATP) subsystem is one of the key techniques in the free space optical communication.
该方法的主要过程是在对抗系统完成捕获、瞄准、跟踪后,由目标投影成像结果,展开作用面的图像分割与识别。
The method could divide and identify the working surface based on the projective images of targets after acquiring, pointing and tracking (APT).
主要由跟踪瞄准图像摄取分系统、数据采集与保存系统和图像处理与评价系统组成。
It mainly consists of image incepted subsystem of tracking and aiming, data collection and preservation subsystem and image processing and evaluation subsystem.
捕获瞄准跟踪(APT)控制系统的设计是影响整个星间光通信系统性能的重要因素。
The design of an acquisition, pointing and tracking (APT) control system is a critical factor for the overall - inter-satellite laser communication performance.
捕获瞄准跟踪(APT)控制系统的设计是影响整个星间光通信系统性能的重要因素。
The design of an acquisition, pointing and tracking (APT) control system is a critical factor for the overall - inter-satellite laser communication performance.
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