第19卷
第4期
2011年4月
文章编号
1004-924X(2011)04-0775-08
光学精密工程
Optics and Precision Engineering
Vol.19No. 4
Apr.2011
车载平台变形对测角误差的影响分析与修正
佟刚，王芳
（中国科学院长春光学精密机械与物理研究所，吉林长春130033)
摘要：分析了车载平台变形对经纬仪测角误差的影响，将平台变形分为平移变形和旋转变形转两类。采用数值模拟实验论证了平台旋转变形是影响测角误差的主要因素，建立了车载经纬仪测角误差与旋转变形角的关系模型，并在此基础上对目标位置和平台旋转变形对测角误差的影响进行了仿真，利用基于莫尔条纹的自准直测量系统测量平台偏向角，倾角传感器测量平台倾斜角，对测量得到的结果进行了实验验证。数据分析表明；该模型能有效修正因车载平台变形面带来的测角误差，使方位测角精度提高了103.7"，高低测角精度提高了89.4"，为实现车载经纬仪高精度测量提供了理论依据和技术支持。
调：车载平台；更形；测角误基；莫尔条纹；倾角传感器
关键
中图分类号：V556
文献标识码：A
doi;10.3788/OPE.20111904.0775
Analysisandcorrectionforinfluenceof
vehicleplatformdeformationonmeasuringerrors
TONGGang,WANGFang
(ChangchunInstituteof Optics,FineMechanicsandPhysics, ChineseAcademy of Sciences,Changchun 130033,China)
Abstract: The influence of vehicle platform deformation on the measuring errors of a theodolite was analyzed,then the platform deformation was divided into two types of translation and rotation. A nu merical simulation was performed to demonstrate that the platform rotation deformation was the main factors to affect the measuring error of the platform. A simulation model of vehicle theodolite between measuring error and rotation deformation was established,and the influence of the target location and rotation deformation on measuring errors was simulated based on the model. Furthermore,the plat-form angular deviation was measured by a self-collimation measurement system based on Moire fringe and the platform angular rotation was measured by a inclinometer, which then was validated by exper-iments. Obtained data show that this method can effectively compensate static angle measuring errors come from the deformation of vehicle platform, and can improve the azimuth precision to 1o3. 7"and elevation precision to 89. 4". It provides a theoretical reference and technical support for the high-pre cision measurement of vehicle theodolites.
Key words: vehicular platform; deformation; angle measuring error ; Moire fringe; inclinometer
收稿日期：2010-08-13；修订日期：2010-08-26.
基金项目：国家863高技术研究发展计划资助项目（No.2008AA7034320B)