Model adaptive scanning viewpoint automatic planning

Guo-qing YANG; Li-zhong WANG; Mao-dong REN; Jian-ning XU; Jian-bo ZHAO; Sen WANG; Zhuang-zhuang LI

doi:10.37188/CO.2024-0022

[1] SHEN Y J, REN J J, HUANG N D et al. Surface form inspection with contact coordinate measurement: a review[J]. International Journal of Extreme Manufacturing, 5, 022006(2023).

[2] LV H Y, LI M Y, CAI D CH. Research progress of grating projection on machine 3D topography inspection technology[J]. Chinese Optics, 16, 500-513(2023).

[3] GOSPODNETIĆ P, MOSBACH D, RAUHUT M et al. Viewpoint placement for inspection planning[J]. Machine Vision and Applications, 33, 2(2022).

[4] PEUZIN-JUBERT M, POLETTE A, NOZAIS D et al. Survey on the view planning problem for reverse engineering and automated control applications[J]. Computer-Aided Design, 141, 103094(2021).

[5] WU Q, ZOU W, XU D. Viewpoint planning for freeform surface inspection using plane structured light scanners[J]. International Journal of Automation and Computing, 13, 42-52(2016).

[6] [6] LUO CH, SHAO J F, WANG W, et al. View planning f complex surface measurement considering specular reflections shadows[JOL]. Journal of Me0 Chinese).

[7] REN M Y, WANG L ZH, ZHAO J B. Viewpoint planning of surface structured light scanning for complex surface parts[J]. Chinese Optics, 16, 113-126(2023).

[8] [8] HAN P W. Research on key technique of viewpoint generation path planning f automated surface structuredlight 3D measurement[D]. Wuhan: Huazhong University of Science Technology, 2018. (in Chinese).

[9] SCOTT W R. Model-based view planning[J]. Machine Vision and Applications, 20, 47-69(2009).

[10] [10] STADERINI V, GLÜCK T, SCHNEIDER P, et al. Surface sampling f optimal viewpoint generation[C]2023 IEEE 13th International Conference on Pattern Recognition Systems (ICPRS), IEEE, 2023: 17.

[11] MOSBACH D, GOSPODNETIĆ P, RAUHUT M et al. Feature-driven viewpoint placement for model-based surface inspection[J]. Machine Vision and Applications, 32, 8(2021).

[12] LI M Y, CAI D CH, ZHAO W X. High precision structural light scanning viewpoint planning for aircraft blade morphology[J]. Chinese Optics, 16, 802-815(2023).

[13] LIU H P, ZHAO W ZH, LIU Y H. View planning of structured light for free-form surfaces with control of measurement uncertainty[J]. Computer Integrated Manufacturing Systems, 28, 1079-1086(2022).

[14] KRUECKEMEIER S, ANDERL R, SCHLEICH B. File format selection for efficient digital process chains in additive manufacturing[J]. Proceedings of the Design Society, 3, 1875-1884(2023).

[15] LU J Y, LAZAR E A, RYCROFT C H. An extension to VORO++ for multithreaded computation of Voronoi cells[J]. Computer Physics Communications, 291, 108832(2023).

[16] KANUNGO T, MOUNT D M, NETANYAHU N S et al. An efficient k-means clustering algorithm: Analysis and implementation[J]. IEEE Transactions on Pattern Analysis and Machine Intelligence, 24, 881-892(2002).

[17] [17] MEYER M, DESBRUN M, SCHRÖDER P, et al. Discrete differentialgeometry operats f triangulated 2manifolds[C]Visualization mathematics III, Springer, 2003: 3557.

[18] LIU Y H, ZHAO W ZH, LIU H P et al. Coverage path planning for robotic quality inspection with control on measurement uncertainty[J]. IEEE/ASME Transactions on Mechatronics, 27, 3482-3493(2022).

[19] [19] PAN J, CHITTA S, MANOCHA D. FCL: a general purpose library f collision proximity queries[C]2012 IEEE International Conference on Robotics Automation, IEEE, 2012: 38593866.

[20] [20] XU J N, WANG L ZH, LIANG J, et al. Viewpoint simplification of surface structured light path optimization of manipulat in 3D measurement[JOL]. Computer Integrated Manufacturing Systems, 2023: 122. https:doi.g10.13196j.cims.2023.0332. (in Chinese).