Mean value coordinates for closed triangular meshes

This paper proposes a mesh deformation method being able to quickly exchange between different editing granularities. The method firstly simplifies the original model mesh to obtain an accuracy-specified control mesh while preserving user’s pre-configured control handle vertices, and then computes the original mesh vertices’ mean value coordinates on the control mesh. Next, uses the Laplacian deformation to deform the control mesh with user’s editing, and then computes the deforming result based on the new control mesh and the previous mean value coordinates. Users can quickly generate a different accuracy control mesh of the new mesh again for deforming with a different granularity. Users only need edit some control vertices, which contains user’s specified handles, so the manipulation is convenient. Experiments show that users can deform models with this method, while changing the granularity fluently and preserving mesh’s features.

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Fit Evaluation during Repetition Interaction in Garment Pattern Design

Mathematical Problems in Engineering ◽

10.1155/2019/3901582 ◽

2019 ◽

Vol 2019 ◽

pp. 1-13

Author(s):

Yuxiang Zhu ◽

Yanjun Peng

Keyword(s):

Design Procedure ◽

Mean Value ◽

Interpolation Algorithm ◽

Triangle Mesh ◽

Pattern Design ◽

Mean Value Coordinates ◽

Speed Up ◽

Evaluation Outcome ◽

Garment Design ◽

Mesh Update

We present a novel virtual try-on solution for fitting evaluation and pattern modification to design various types of garment and speed up the garment design process. In the phase of fit evaluation, we propose a method for producing two-dimensional (2D) color maps by comparing a 2D triangle mesh panel garment and a 3D triangle mesh garment, which can display the fit evaluation outcome in real time. In the phase of pattern modification, a novel prior condition based on maximum entropy coordinates and a more comprehensive mean value coordinates interpolation algorithm are proposed. By a combination of the two deformation methods, the positions of the internal vertices are updated smoothly. Applying the proposed method to the repetition of the garment design procedure, the experimental results show that it can easily pinpoint the location where it needs to be modified and can achieve arbitrary pattern modification with a smooth mesh update.

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Model Merging Through Mean Value Coordinates

Journal of Information and Computational Science ◽

10.12733/jics20102486 ◽

2013 ◽

Vol 10 (9) ◽

pp. 2551-2560 ◽

Cited By ~ 1

Author(s):

Zhengjie Deng

Keyword(s):

Mean Value ◽

Mean Value Coordinates ◽

Model Merging

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Computational Synthesis of Large Deformation Compliant Mechanisms Undergoing Self and Mutual Contact

Journal of Mechanical Design ◽

10.1115/1.4041054 ◽

2018 ◽

Vol 141 (1) ◽

Cited By ~ 8

Author(s):

Prabhat Kumar ◽

Anupam Saxena ◽

Roger A. Sauer

Keyword(s):

Large Deformation ◽

Compliant Mechanisms ◽

Mean Value ◽

Active Set ◽

Mutual Contact ◽

Mean Value Coordinates ◽

Computational Synthesis ◽

Augmented Lagrange Multiplier ◽

Rigid Contact ◽

Boundary Smoothing

Topologies of large deformation contact-aided compliant mechanisms (CCMs), with self and mutual contact, exemplified via path generation applications, are designed using the continuum synthesis approach. Design domain is parameterized using honeycomb tessellation. Assignment of material to each cell, and generation of rigid contact surfaces, are accomplished via suitably sizing and positioning negative circular masks using the stochastic hill-climber search. To facilitate contact analysis, boundary smoothing is implemented. Mean value coordinates are employed to compute shape functions, as many regular hexagonal cells get degenerated into irregular, concave polygons as a consequence of boundary smoothing. Both geometric and material nonlinearities are considered. The augmented Lagrange multiplier method with a formulated active set strategy is employed to incorporate both self and mutual contact. Synthesized contact-aided compliant continua trace paths with single, and importantly, multiple kinks and experience multiple contact interactions pertaining to both self and mutual contact modes.

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