Measurement and Error Compensation of 3D Morphology with Precision Rotation Line Structured Light

Xiang Liu; Zhenliang Wang; Peng Yao; Yao Hou; Heyong Zhang; Dongkai Chu; Shuoshuo Qu

doi:10.3788/CJL202249.2104004

[1] Feng X, Gu B Q. The research status and development tendency of surface topography[J]. Lubrication Engineering, 31, 168-170, 176(2006).

[2] Zheng Y, Zhang X, Wang S D et al. Similarity evaluation of topography measurement results by different optical metrology technologies for additive manufactured parts[J]. Optics and Lasers in Engineering, 126, 105920(2020).

[3] Mettänen M, Hirn U. A comparison of five optical surface topography measurement methods[J]. TAPPI Journal, 14, 27-38(2015).

[4] Leach R[M]. Optical Measurement of Surface Topography(2011).

[5] Zhang S, Huang P S. High-resolution, real-time three-dimensional shape measurement[J]. Optical Engineering, 45, 123601(2006).

[6] Liu P, Liu J T. Research on the error evaluation of point laser in machine flatness measurement[J]. Journal of Shenyang Institute of Engineering (Natural Science), 17, 92-96(2021).

[7] Zhan K F, Chen W J, Li W S et al. Line laser 3D scene reconstruction system and error analysis[J]. Chinese Journal of Lasers, 45, 1204004(2018).

[8] Zhang Z H, Liu X H, Guo Z N et al. Shape measurement of specular/diffuse complex surface based on structured light[J]. Infrared and Laser Engineering, 49, 0303015(2020).

[9] Moreno-Oliva V I, Román-Hernández E, Torres-Moreno E et al. Measurement of quality test of aerodynamic profiles in wind turbine blades using laser triangulation technique[J]. Energy Science & Engineering, 7, 2180-2192(2019).

[10] Han J J, Zhou J P, Xue R L et al. Surface morphology reconstruction and quality evaluation of pipeline weld based on line structured light[J]. Chinese Journal of Lasers, 48, 1402010(2021).

[11] Zhang P C, Liu J, Yang H M et al. Laser overlapping three-dimensional reconstruction of damagedaero engine blade[J]. Laser & Optoelectronics Progress, 57, 161504(2020).

[12] Ding H, Xu Y A. Design of 3D rotary laser scanning and measuring system[J]. Modern Electronics Technique, 34, 164-166(2011).

[13] Huang K, Yang J, Xu D L et al. Line laser based Researches on a Three-dimensional Measuring system[C], 657-660(2019).

[14] Xiang J. Non-contact measurement research of surface roughness by three-dimensional microscopic light cutting[J]. Tool Engineering, 53, 96-99(2019).

[15] Sun Y C, Pang Y J, Bai Z X et al. Application technology of laser triangulation[J]. Laser Journal, 42, 1-8(2021).

[16] Schlarp J, Csencsics E, Schitter G. Design and evaluation of an integrated scanning laser triangulation sensor[J]. Mechatronics, 72, 102453(2020).

[17] Wu B W, Feng G Q. Research on principle of laser triangulation ranging[J]. Value Engineering, 242-244(2020).

[18] Ji Z Y, Song X J, Fu W J et al. Review on centerline extraction for laser stripe[J]. Measurement & Control Technology, 40, 1-8(2021).

[19] Li W M, Mei F, Hu Z et al. Internal propulsion algorithm for extracting center of line laser stripe[J]. Chinese Journal of Lasers, 48, 1104002(2021).

[20] Hu Y, Fang S P. Extraction method of light stripe center of linear structure[J]. Laser & Optoelectronics Progress, 58, 0112005(2021).

[21] Li W M, Peng G, Gao X Y et al. Fast extraction algorithm for line laser strip centers[J]. Chinese Journal of Lasers, 47, 0304002(2020).

[22] Xing D M. Mathematical theory and analogy analysis of least square method and its related methods[J]. Pure Mathematics, 230-238(2018).

[23] Ding K L, Shen Y Z, Ou J K. Methods of line-fitting based on total least-squares[J]. Journal of Liaoning Technical University (Natural Science), 29, 44-47(2010).

[24] Mitchell D R G, van den Berg J A. Development of an ellipse fitting method with which to analyse selected area electron diffraction patterns[J]. Ultramicroscopy, 160, 140-145.(2016).

[25] Hunyadi L, Vajk I. Constrained quadratic errors-in-variables fitting[J]. The Visual Computer, 30, 1347-1358(2014).

[26] Xiong F G, Li X, Han X. A method of ellipse fitting based on total least squares[J]. Microelectronics & Computer, 34, 102-105(2017).

[27] Lu J, Cai Z Q, Yao B et al. Error compensation and accuracy analysis of laser measurement system based on laser-beam calibration[J]. Optik, 200, 163272(2020).

[28] Wang L, Feng Q B, Li J K. Tilt error analysis for laser triangulation sensor based on ZEMAX[J]. Proceedings of SPIE, 10846, 108460R(2018).

[29] Li S S, Yang Y P, Jia X T et al. The impact and compensation of tilt factors upon the surface measurement error[J]. Optik, 127, 7367-7373(2016).