本设计主要是完成雷达光电跟踪仪的视频显示。
This design is mainly to complete the video display of radar electro-optical tracking machine.
在光电经纬仪中,电视或红外脱靶量的滞后对控制系统的稳定性和跟踪精度都有较大的影响。
In a photoelectric theodolite, the time delay of TV or IR miss distance will have a relative large influence on stability and tracking accuracy of the control system.
讨论了小型光电人卫跟踪仪的ALT ALT机架原理,分析证明采用这种机架形式没有天顶盲区、跟踪速度和加速度较小。
In this article, we discussed the principle of ALT-ALT mount for small satellite tracker and proved this mount has no blind area near the zenith, need small tracking velocity and acceleration only.
近年来,随着靶场测试目标速度的提高和设备自动化程度的提高,对光电经纬仪电视跟踪伺服系统的跟踪和捕获快速运动目标的能力提出了越来越高的要求。
The high capability of O-E theodolite to track and acquire fast moving targets is required these years because of the rapid advancement of tested targets and automatization of equipments.
因此提高光电经纬仪跟踪快速运动目标的能力,一直是光电跟踪伺服系统努力的方向。
So improving the tracking ability of a theodolite for the fast moving target is the orientation of the photoelectrical tracking and servo system all along.
本论文就如何提高光电经纬仪电视跟踪伺服系统跟踪捕获快速运动目标的能力等一系列问题进行了探讨。
These problems of how to improve the O-E theodolite capability to track and acquire fast moving targets are discussed in this dissertation.
本文深入探讨了动态高型控制方法在光电经纬仪跟踪伺服系统中的实际工程应用,提出了一种不同于前人的动态高型控制方法。
Application of dynamic high type control method in the servo system of O-E theodolite is discussed in detail in the dissertation. A method differing from the former is brought forward.
随着被测目标运动速度和加速度的不断提高,导致光电经纬仪电视跟踪的动态误差急剧增大。
With the increase of the velocity and acceleration of the moving target, it produces a large accretion of dynamic error of O-E theodolite.
光电人卫跟踪仪的观测数据是对已知或未知轨道卫星进行定轨的重要参数。
The tracker's observed data are important parameters to determine the precise orbits of those orbit-known or unknown satellites.
摘要:提出了一种利用动态靶标实现光电经纬仪跟踪性能等效正弦评价的新方法。
Abstract: a novel approach based on the equivalent sine testing is proposed to evaluate the tracking performance of a photoelectric theodolite by using a dynamic target.
摘要 : 提出了一种基于径向基函数(RBF)神经网络建立光电经纬仪等效跟踪误差模型的方法来评价光电经纬仪的跟踪性能。
Abstract : To effectively evaluate the tracking ability of a photoelectric theodolite, a new tracking error model based on the Radial Basis Function(RBF) neural network was established.
摘要 : 提出了一种基于径向基函数(RBF)神经网络建立光电经纬仪等效跟踪误差模型的方法来评价光电经纬仪的跟踪性能。
Abstract : To effectively evaluate the tracking ability of a photoelectric theodolite, a new tracking error model based on the Radial Basis Function(RBF) neural network was established.
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