摘要
新型光电实时水平基准测量系统通过耦合伺服跟踪平台和测角平台实时输出的角度信息来构建定义于系统测量点处动基座固连坐标系的水平姿态角度测量模型。本文对天文导航自主定位定向技术的研究和发展方向进行分析与展望,阐述了高精度自主水平基准测量方法研究的重要性,并在此基础上介绍了系统的工作原理与组成,详细分析了系统的测量精度,为后面的工作开展提供了重要的理论参考。
The new real-time optical angle measurement system to build the angle defined by the coupling servo tracking platform for real time platform and angle t system to measure the output information at the point of moving the horizontal posture angle of the base coordinate system fixed with the measurement model. In this paper, autonomous navigation positioning and orientation of astronomical research and development direction of technology analysis and outlook, the importance of self-precision method of measuring the level of baseline studies, and on this basis, introduces the working principle of the system and the composition of a detailed analysis of the system t accuracy for the back of the work carried out provides an important theoretical reference.
出处
《机电产品开发与创新》
2014年第4期108-109,123,共3页
Development & Innovation of Machinery & Electrical Products
关键词
水平基准测量
数据测量模型
测量精度分析
horizontal reference measurement
data measuring model
measuring accuracy analysis
作者简介
王晓明(1984-),男,吉林长春人,助理研究员,2013年于中国科学院大学获得工学博士学位.主要从事光电经纬仪光机结构设计以及光电测量技术方面的研究工作.
