[1] SUN A B, CAO T Z, WANG J H et al. Technological development trends of geometric dimension measurements of large parts in the high-end equipment[J]. Metrology & Measurement Technology, 41, 41-50(2021).

     孙安斌, 曹铁泽, 王继虎. 高端装备大型零部件几何尺寸测量技术现状及趋势[J]. 计测技术, 41, 41-50(2021).

[2] 罗涛, 齐志军, 王巍. 适用于激光跟踪仪转站的改进平差方法[J]. 中国激光, 51(2024).

     LUO T, QI ZH J, WANG W et al. Improved adjustment method applied in transformation of laser tracker[J]. Chinese Journal of Lasers, 51(2024).

[3] GAO Y, LIN J R, YANG L H et al. Development and calibration of an accurate 6-degree-of-freedom measurement system with total station[J]. Measurement Science and Technology, 27, 125103(2016).

[4] DAVID P, DEMENTHON D, DURAISWAMI R et al. SoftPOSIT： simultaneous pose and correspondence determination[C], 698-714(2002).

[5] 高豆豆, 董登峰, 邱启帆. 面向激光跟踪测量的大范围高精度姿态测量[J]. 光学 精密工程, 32, 976-986(2024).

     GAO D D, DONG D F, QIU Q F et al. Large range automatic attitude measurement method for laser tracking measurement[J]. Opt. Precision Eng., 32, 976-986(2024).

[6] LAO D B, ZHANG H J, XIONG ZH et al. Automatic measurement method of attitude based on monocular vision[J]. Acta Photonica Sinica, 48, 315001(2019).

     劳达宝, 张慧娟, 熊芝. 基于单目视觉的姿态自动测量方法[J]. 光子学报, 48, 315001(2019).

[7] WU CH Q, XIONG ZH, XU H et al. Laser tracking attitude measurement based on improved visual orthogonal iteration method[J]. Chinese Journal of Scientific Instrument, 43, 63-71(2022).

     伍楚奇, 熊芝, 许航. 基于视觉正交迭代法改进的激光跟踪姿态测量[J]. 仪器仪表学报, 43, 63-71(2022).

[8] GAO Y, LIN J R, HE F Y et al. A monocular vision and inclinometer combined system for 6DOF measurement of double shield TBM[J]. Sensors and Actuators A： Physical, 249, 155-162(2016).

[9] 晁志超, 伏思华, 姜广文. 单目摄像机-激光测距传感器位姿测量系统[J]. 光学学报, 31, 85-91(2011).

     CHAO ZH CH, FU S H, JIANG G W et al. Mono camera and laser rangefinding sensor position-pose measurement system[J]. Acta Optica Sinica, 31, 85-91(2011).

[10] ZHANG Z, ZHAO R J, LIU E H et al. A fusion method of 1D laser and vision based on depth estimation for pose estimation and reconstruction[J]. Robotics and Autonomous Systems, 116, 181-191(2019).

[11] BALTZAKIS H, ARGYROS A, TRAHANIAS P. Fusion of laser and visual data for robot motion planning and collision avoidance[J]. Machine Vision and Applications, 15, 92-100(2003).

[12] ZHU Z F, MA Y B, ZHAO R J et al. Improve the estimation of monocular vision 6-DOF pose based on the fusion of camera and laser rangefinder[J]. Remote Sensing, 13, 3709(2021).

[13] ZHANG Z, ZHAO R J, LIU E H et al. A convenient calibration method for LRF-camera combination systems based on a checkerboard[J]. Sensors, 19, 1315(2019).

[14] HAN S, KIM Y J, KIM S W. Parallel determination of absolute distances to multiple targets by time-of-flight measurement using femtosecond light pulses[J]. Opt Express, 23, 25874-25882(2015).

[15] RAKICH A, DETTMANN L, LEVEQUE S et al. A 3D metrology system for the GMT[C], 990614(2016).

[16] LIU Z 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, 24, 105004(2013).

[17] HUANG Z, 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, 64, 2518-2529.

[18] SHI S D, YANG L H, LIN J R et al. Omnidirectional angle constraint based dynamic six-degree-of-freedom measurement for spacecraft rendezvous and docking simulation[J]. Measurement Science and Technology, 29(2018).

[19] ZHOU Q, WU T F, LIU Y et al. Efficient method for the compensation of dispersion mismatch in the frequency-scanning interferometry[J]. Optics Express, 29, 42127(2021).

[20] YAN Y CH, CHEN X S, XUE L Y et al. Design of Frequency Scanning Interferometry Laser Ranging System[J]. Acta Optica Sinica, 44, 166-175(2024).

     闫语畅, 陈潇洒, 薛蔺洋. 一种扫频干涉激光测距系统设计[J]. 光学学报, 44, 166-175(2024).

[21] TAN Y D, LIN CH X. Nonlinearity correction technology for light source of frequency-modulated continuous-wave light detection and ranging（invited）[J]. Laser & Optoelectronics Progress, 61, 305-314(2024).

     谈宜东, 林晨啸. 调频连续波激光雷达光源非线性校正技术（特邀）[J]. 激光与光电子学进展, 61, 305-314(2024).

[22] WU G H, ZHOU S Y, YANG Y T et al. Dual-comb ranging and its applications[J]. Chinese Journal of Lasers, 48, 1504002(2021).

     吴冠豪, 周思宇, 杨越棠. 双光梳测距及其应用[J]. 中国激光, 48, 1504002(2021).

[23] 吴学健, 李岩, 尉昊赟. 飞秒光学频率梳在精密测量中的应用[J]. 激光与光电子学进展, 49, 30001(2012).

     WU X J, LI Y, ZHANG J T et al. Femtosecond optical frequency combs for precision measurement applications[J]. Laser & Optoelectronics Progress, 49, 30001(2012).

[24] YANG L, PAN Y, LIN J et al. Automatic guidance method for laser tracker based on rotary-laser scanning angle measurement[J]. Sensors （Basel）, 20(2020).

[25] YANG S, YANG L, WU T et al. Multi-target automatic positioning based on angle and distance parallel measurement[J]. Opt Express, 31, 42595-42612(2023).

[26] MURALIKRISHNAN B, SAWYER D, BLACKBURN C et al. ASME B89.4.19 performance evaluation tests and geometric misalignments in laser trackers[J]. Journal of Research of the National Institute of Standards and Technology, 114, 21(2009).

[27] MANWILLER P E. Three-dimensional network adjustment of laser tracker measurements for large-scale metrology applications[J]. Journal of Surveying Engineering, 147(2021).