The Journal of Commercial Biotechnology

Lei Meng
Xi'an University of Architecture and Technology, Xi'an, China, 710055
Yujie Hu
Xi'an University of Architecture and Technology, Xi'an, China, 710055
Jiangwei Guo
Xi'an University of Architecture and Technology, Xi'an, China, 710055
Sirui Shen
Xi'an University of Architecture and Technology, Xi'an, China, 710055

DOI:https://doi.org/10.5912/jcb2526

Abstract:

At present, a single geometric design can no longer meet the aesthetic and consumption needs of modern people, so it is necessary to combine contemporary intelligent methods to carry out intelligent design of biotechnology ceramic structures. This paper designs a biotechnology ceramic structure intelligent design system combined with 3D structured light simulation technology, so as to carry out intelligent design of biotechnology ceramic structures through intelligent reconstruction technology, and improve the efficiency and effect of biotechnology ceramic structure design. In addition, this paper adopts the method of combining polar line constraint with phase value matching search to perform stereo matching of absolute phase. According to the experimental analysis, RMSmm=0.0291 can be obtained, which meets the 0.03mm required by biotechnology ceramic design, and verifies the effectiveness of the algorithm proposed in this paper for the reconstruction of biotechnology ceramic products. At the same time, it can be seen that the reconstruction error after optimization is improved by 0.0009mm, 0.0012mm, 0.0011mm and 0.0020mm respectively compared with the reconstruction error before optimization. The final error result is 0.0291mm, which meets the actual requirements. Therefore, the phase stereo matching algorithm used in this paper has a good matching effect, and the reconstructed point cloud data is considerable, which has a certain reference role in the subsequent biotechnology ceramic structure design, and also has a certain reference significance for other similar art designs.

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