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无衍射光电子标靶及误差分析 被引量:4

Electric Target Based on Non-diffracting Beam and Error Analysis
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摘要 提出了一种新型的用于盾构机导向的无衍射光电子标靶,利用映射关系将全站仪激光入射到标靶中CCD上的光斑场盾中心位置和全站仪的角度值联系起来,结合电子水平仪读数,得到标靶的完整姿态角,并计算盾首中心坐标。分析测量过程中全站仪、标靶各部件引起的误差,推导标靶测量姿态角及盾首中心坐标的误差。分析表明,标靶测量盾首的偏差精度达到毫米级,满足盾构导向的精度要求。 A new electronic target based on the principle of the non-diffracting beam is proposed for guidance of shield machine.The spot center location of the incident laser of the total station in CCD fixed in the electronic target and the angle data of the total station are combined by constituting mapping database.The actual attitude angles of the electronic target and the center of the head of shield machine are computed by mapping database and the angles of electronic gradienter.The errors of the total station and components of the electronic target in measuring process are analyzed.The errors of attitude angles and the center of the head of shield machine are derived.The result shows that the measuring precision of the head of shield machine by the electronic target could reach a millimeter-level,which could meet the requirement of the shield machine guidance precision.
作者 陈慧 赵斌
机构地区 华中科技大学机械科学与工程学院仪器科学与技术系
出处 《光电工程》 CAS CSCD 北大核心 2011年第2期34-40,共7页 Opto-Electronic Engineering
基金 973基金资助项目(2007CB714000)
关键词 无衍射光:电子标靶 姿态角测量 误差分析 non-diffracting beam electronic target attitude angle measurement error analysis
分类号 TN247 [电子电信—物理电子学]
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共引文献147

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  • 1王中宇,周聪,张朵.无衍射光技术在瞄准系统中的理论与原理实验[J].北京航空航天大学学报,2006,32(11):1337-1340. 被引量:6
  • 2邾继贵,于之靖.视觉测量原理与方法[M].北京:机械工业出版社,2012.
  • 3Madanipour K,Tavassoly M T. Moire fringes as two- dimensional autocorre[ation of transmission function o[ linear gratings and its application for modulation trans- fer function measurement. Opt Lasers Eng, 2010, 48 (01) : 43-47.
  • 4Weon-Jae R, Young-June R, Sung-Hoon B, et al. A study on the 3-D measurement using digital projection moir: method. Optik-Int J Light Electron Opt,2008, 199(10) :453-458.
  • 5Xiao X, Kang Y, Hou Z,et al. Displacement and strain measurement by circular and radial gratings moirfi method. Exp Mech, 2010,50 (02) : 239-244.
  • 6Neumayr R, Harker M, O'Leary P, et al.. New approaches to machine vision based displacement analysis[C]. Instrumentation and Measurement Technology Conference, 2012 IEEE International, 2012: 979-984.
  • 7Ababsa F, Mallem M. Robust camera pose estimation using 2d fiducials tracking for real-time augmented reality systems[C]. Proceedings of ACM SIGGRAPH International Conference on Virtual-Reality Continuum and Its Applications in Industry (VRCAI2004), 2004:431- 435.
  • 8Zheng Y, Kuang Y, Sugimoto S, et al.. Revisiting the pnp problem: a fast, general and optimal solution[C]. Computer Vision (ICCV), 2013 IEEE International Conference on, 2013: 2344-2351.
  • 9Behling R, Fischer A, Herrich M, et al.. A Levenberg-Marquardt method with approximate projections[J]. Computational Optimization & Applications, 2014, 59(1-2): 5-26.
  • 10喻彩丽.基于全站仪三坐标测量系统的测量方法[J].光学仪器,2010,32(2):1-4. 被引量:6

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光电工程
2011年 第2期

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