4.4 Article

A free-form surface flattening algorithm that minimizes geometric deformation energy

期刊

IET IMAGE PROCESSING
卷 16, 期 9, 页码 2544-2556

出版社

WILEY
DOI: 10.1049/ipr2.12508

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资金

  1. Zhejiang Education Department in 2020, China [FG2020196, FG2020197]
  2. 13th Five-Year Plan of Zhejiang Higher Education, China [jg20190878]
  3. Welfare Science and Technology Research Project of Jinhua, Zhejiang Province, China [2021-4-386]

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This paper proposes a free-form surface flattening algorithm that combines the advantages of geometric flattening and mechanical energy flattening methods to solve the problems of many iterations, large changes in convergence, and weak visualization of deformation in existing algorithms. The algorithm meshes the point cloud surface using the triangular slice search method and wraps the 3D surface mesh around the surface using geometric mapping relationships. Iterative optimization is employed to optimize the initial flattening graph. The algorithm is shown to be general, robust, accurate, and capable of visualizing the flattening deformation.
Based on the analysis of the advantages and disadvantages of existing surface flattening algorithms, this paper proposes a free-form surface flattening algorithm that minimizes geometric deformation by combining the advantages of the geometric flattening method and the mechanical energy flattening method to address the problems of many iterations, large changes in convergence, and weak visualization of deformation. The point cloud surface is meshed using the triangular slice search method, and the 3D surface mesh is wrapped around the surface using geometric mapping relationships. The initial correction and deformation analysis of the ring flatten graphic are carried out according to the average flattening error, and a global geometric deformation energy model is established to obtain the energy-minimizing unfolding conditions and optimize the initial flattening graph by iterative optimization. The verification of the algorithm shows that the algorithm is general, has good robustness, high flattening accuracy, and visualizes the flattening deformation. The method is suitable for some design occasions of machining, such as the flattening calculation of automobile outer cladding parts and sheet metal parts. It is especially suitable for the flattening calculation of ring-like parts, and is a good guide for the design calculation and stamping process of sheet-metal-like parts.

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