Indoor positioning by using scanning infrared laser and ultrasonic technology

Jun WU; Zhi-jing YU; Jing-chang ZHUGE; Bin XUE

doi:10.3788/OPE.20162410.2417

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Indoor positioning by using scanning infrared laser and ultrasonic technology

Modern Applied Optic | 更新时间：2020-07-07

- Indoor positioning by using scanning infrared laser and ultrasonic technology
- Optics and Precision Engineering Vol. 24, Issue 10, Pages: 2417-2423(2016)
- 作者机构：
  
  1.中国民航大学航空工程学院, 天津 300300
  2.中国民航大学电子信息与自动化学院, 天津 300300
  3.天津大学海洋科学与技术学院, 天津 300072
- 作者简介：
- 基金信息：
- DOI：10.3788/OPE.20162410.2417
  CLC： TN247
- Received：11 July 2016，
  
  Accepted：12 August 2016，
  
  Published：2016-10
- 稿件说明：
移动端阅览
Jun WU, Zhi-jing YU, Jing-chang ZHUGE, et al. Indoor positioning by using scanning infrared laser and ultrasonic technology[J]. Optics and precision engineering, 2016, 24(10): 2417-2423.
DOI：

Jun WU, Zhi-jing YU, Jing-chang ZHUGE, et al. Indoor positioning by using scanning infrared laser and ultrasonic technology[J]. Optics and precision engineering, 2016, 24(10): 2417-2423. DOI： 10.3788/OPE.20162410.2417.

摘要

为了解决当前定位方法无法兼顾高精度、高集成度、多任务性、实时性测量的问题，提出了一种基于激光测距原理的室内空间定位系统。该方法通过单台测量基站向被测空间内发射旋转扫描红外激光信号以及超声脉冲信号，采用旋转扫描红外激光形成多平面约束，采用高精度超声测距形成距离约束。然后，将多平面约束与距离约束相耦合，得到测量靶标的非线性约束方程组。最后，利用非线性最优化算法解算得到测量靶标的精确空间坐标。该方法仅采用单台测量基站即可完成全周向、多任务实时性的空间测量与定位。采用激光跟踪仪系统作为比对基准验证了本方法的测量精度及可靠性。结果显示，在5 m的被测空间内，其定位测量误差在0.3 mm以内，可满足大多数工业测量应用场合需求。与传统的室内定位方法相比，本方法极大地提高了测量系统的集成度以及测量效率，为全站式空间定位方法提供了新的思路。

Abstract

Because traditional positioning methods can not satisfy its requirements for high accuracy

high integration

multi-task and real-time

an indoor positioning method by using laser ranging technology is proposed for industrial manufacturing fields. This method transmits rotation scanning plane laser signals and ultrasonic pulse signals through a measurement base station. It uses rotation scanning plane infrared laser to form a multi-plane constraint

and uses high precision ultrasonic ranging to form a distance constraints. Then the plane constraint and distance constraint are fused to obtain a nonlinear constraint equation set. Finally

the nonlinear optimal algorithm is used to calculate and obtain the accurate 3D coordinates of the target bar. The method achieves omnidirectional

multi-task and real-time positioning by using a total station. A laser tracker is taken as standard to verify the measuring accuracy and reliability of the proposed method. The experiment results show that the positioning measurement error of the method is less than 0.3 mm within a 5 m range

which meets the most industrial fields. As compared with that of the traditional indoor positioning methods

the proposed method improves the integration level and measuring efficiency and provides a new way for whole station positioning methods.

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references

任永杰, 薛彬, 杨凌辉,等. 工作空间测量定位系统加权问题研究[J]. 红外与激光工程, 2015,44(2):668-672.

REN Y J, XUE B, YANG L H,et al.. Study on the problem of weighting for the workspace measuring and positioning system[J]. Infrared and Laser Engineering, 2015,44(2):668-672.(in Chinese)

HUANG ZH, ZHU J G, YANG L H, et al.. Accurate 3-D position and orientation method for indoor mobile robot navigation based on photoelectric scanning[J]. IEEE Transactions on Instrumentation and Measurement, 2015, 64:2518-2529.

董登峰, 周维虎, 纪荣祎,等. 激光跟踪仪精密跟踪系统的设计[J]. 光学精密工程, 2016,24(2):309-318.

DONG D F, ZHOU W H, JI R Y, et al.. Design of precise tracking system of laser tracker[J]. Opt. Precision Eng., 2016,24(2):309-318.(in Chinese)

王锐. 激光距离选通成像门宽对图像信噪比影响[J]. 中国光学, 2015,8(6):951-956.

WANG R. Effect of gate width of laser range gating imaging on image SNR[J]. Chinese Optics, 2015,8(6):951-956.(in Chinese)

任永杰, 邾继贵, 吴军,等. 采用互扫描法自动标定工作空间定位系统[J]. 光学精密工程, 2015,23(3):609-616.

REN Y J, ZHU J G, WU J, et al.. Self-calibration of workspace measurement and positioning system by using inter-scanning[J]. Opt. Precision Eng., 2015,23(3):609-616.(in Chinese)

NUBIOLA A,SLAMANI M, JOUBAIR A, et al.. Comparison of two calibration methods for a small industrial robot based on an optical CMM and a laser tracker[J]. Robotica, 2014, 32(3):447-466.

WU B, WANG B. Automatic measurement in large-scale space with the laser theodolite and vision guiding technology[J]. Advances in Mechanical Engineering, 2013, 8:533-542.

TIAN L, ZHU W, LI K J. A camera calibration method for large field vision metrology[C]. IEEE International Conference on Mechatronics and Automation, Beijing, 2015:2632-2637. http://cn.bing.com/academic/profile?id=1557961165&encoded=0&v=paper_preview&mkt=zh-cn

薛彬, 邾继贵, 郑迎亚. 工作空间测量定位系统最佳测量点的确定方法[J]. 红外与激光工程, 2015,44(4):1218-1222.

XUE B, ZHU J G, ZHENG Y Y. Determination method of optimal measurement point of workspace measuring and positioning system[J]. Infrared and Laser Engineering, 2015,44(4):1218-1222.(in Chinese)

杨凌辉, 邾继贵, 魏振忠, 等. 工作空间测量定位系统定向参数修正方法[J]. 红外与激光工程, 2012, 41(6):1629-1634.

YANG L H, ZHU J G, WEI ZH ZH, et al.. Correction method for orientation parameters of workspace measurement positioning system[J]. Infrared and Laser Engineering, 2012, 41(6):1629-1634. (in Chinese)

LIU ZH X, ZHU J G, YANG L H, et al.. A single-station multi-tasking 3D coordinate measurement method for large-scale metrology based on rotary-laser scanning[J]. Measurement Science and Technology, 2013, 24(10):47-52.

LIU SH, ZHANG H L, DONG Y H, et al.. Portable light pen 3D vision coordinate measuring system-probe tip center calibration[J]. Measurement Science Review, 2013, 13(4):194-199.

WU J, ZHU J G, YANG L H, et al.. A highly accurate ultrasonic ranging method based on onset extraction and phase shift detection[J]. Measurement, 2014, 47:433-441.

赵春阳, 赵怀慈. 结合特征定位噪声表征的单应矩阵精确鲁棒估计[J]. 光学精密工程, 2015,23(8):2357-2368.

ZHAO CH Y, ZHAO H C. Accuracy and robust estimation of homography based on feature point location noise[J]. Opt. Precision Eng., 2015,23(8):2357-2368.(in Chinese)

ZHAO Z Y, ZH J G, XUE B, et al.. Optimization for calibration of large-scale optical measurement positioning system by using spherical constraint[J]. Journal of the Optical Society of America A:Optics and Image Science, and Vision,2014, 31(7):1427-1435.

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