Title
Harmonic volumetric mapping for solid modeling applications
Document Type
Conference Proceeding
Publication Date
10-22-2007
Abstract
Harmonic volumetric mapping for two solid objects establishes a one-to-one smooth correspondence between them. It finds its applications in shape registration and analysis, shape retrieval, information reuse, and material/texture transplant. In sharp contrast to harmonic surface mapping techniques, little research has been conducted for designing volumetric mapping algorithms due to its technical challenges. In this paper, we develop an automatic and effective algorithm for computing harmonic volumetric mapping between two models of the same topology. Given a boundary mapping between two models, the volumetric (interior) mapping is derived by solving a linear system constructed from a boundary method called the fundamental solution method. The mapping is represented as a set of points with different weights in the vicinity of the solid boundary. In a nutshell, our algorithm is a true meshless method (with no need of specific connectivity) and the behavior of the interior region is directly determined by the boundary. These two properties help improve the computational efficiency and robustness. Therefore, our algorithm can be applied to massive volume data sets with various geometric primitives and topological types. We demonstrate the utility and efficacy of our algorithm in shape registration, information reuse, deformation sequence analysis, tetrahedral remeshing and solid texture synthesis.
Publication Source (Journal or Book title)
Proceedings - SPM 2007: ACM Symposium on Solid and Physical Modeling
First Page
109
Last Page
120
Recommended Citation
Li, X., Guo, X., Wang, H., He, Y., Gu, X., & Qin, H. (2007). Harmonic volumetric mapping for solid modeling applications. Proceedings - SPM 2007: ACM Symposium on Solid and Physical Modeling, 109-120. https://doi.org/10.1145/1236246.1236263