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.
为实现快速捕获与高精度跟踪瞄准,必须提高光电探测器性能、改善结构设计并采用高精度控制技术等。
Improvement of performances of photodetector, design structure and applying control technologies with high accuracy are important for fast acquisition, precision tracking and pointing.
首先需要解决实现空间光通信的关键问题是光束的捕获、跟踪和瞄准。
Laser beam's acquisition, tracking and pointing is one of the key technologies of free space optical communication.
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.
总结分析了大气干扰、天气因素和平台的抖动或振动对通信的影响,提出了螺旋式扫描子空间的动态捕获、瞄准、跟踪方案。
The paper also summarizes and analyses how the atmosphere, weather and platform's sway or vibration affect the communication, presents a dynamic acquisiton, pointing and tracking scheme .
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.
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.
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).
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).
应用推荐