Abstract

The initial form of present-day space optical observations contain considerable geometrical and brightness distortions. This problem can be solved based on geometrical correction and transformation of reference object coordinates into commonly accepted cartographic projections. In this work, the method of coordinate transformation to the reference selenocentric dynamic system by using a base of reference selenographic objects as electronic maps is considered. The transformation process presupposes the formation of a photogrammetrically corrected image and identification of observed objects included into the electronic maps. Height data of on the Moon’s surface are determined from known observed selenographic coordinates with respect to reference objects by software tools. Preliminary selenographic coordinates can be determined using both ground positional observations and onboard goniometric devices such as a laser interferometer.

中文翻译：

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绕月航天器至准心动态坐标系导航参考方法的开发

摘要

当今空间光学观测的初始形式包含相当大的几何和亮度畸变。可基于几何校正和将参考对象坐标转换为公认的制图投影来解决此问题。在这项工作中，考虑了通过使用参考人体学对象的基础作为电子地图将坐标转换为参考人体中心动力系统的方法。转换过程的前提是要形成摄影测量校正的图像并识别包含在电子地图中的观察对象。月球表面的高度数据是通过软件工具根据相对于参考物体的已知观测硒坐标确定的。