基于区间代数拓扑分析的有理面与面相交的拓扑驱动逼近

Jin-San Cheng, Bingwei Zhang, Yikun Xiao, Ming Li
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引用次数: 0

摘要

计算两个参数曲面之间的相交是几何和实体建模中最基本的问题之一。维护SSI拓扑对于其计算鲁棒性至关重要。基于区间代数拓扑分析(IATA)的概念,提出了一种拓扑驱动的混合符号-数值框架来逼近有理参数曲面相交(SSI),该框架在四维区间框内配置了SSI拓扑。我们将SSI拓扑映射到框架内的代数系统的解,将所有拓扑情况分类并列举为四种基本情况(或其特定子情况)的混合物。涵盖了各种复杂的拓扑情况,如尖点或曲线,切点(孤立或不孤立)或曲线,微小回路,自交,或它们的混合物。该理论公式还使用先进的实解隔离技术在数值上实现,并在拓扑驱动框架内进行计算,该框架最大限度地利用了代数分析的拓扑维护优势,迭代细分的鲁棒性和向前推进的效率。与可用的开源和商业解决方案(包括IRIT、SISL和Parasolid)相比,该方法在基准拓扑情况下证明了更好的鲁棒性。
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Topology driven approximation to rational surface-surface intersection via interval algebraic topology analysis
Computing the intersection between two parametric surfaces (SSI) is one of the most fundamental problems in geometric and solid modeling. Maintaining the SSI topology is critical to its computation robustness. We propose a topology-driven hybrid symbolic-numeric framework to approximate rational parametric surface-surface intersection (SSI) based on a concept of interval algebraic topology analysis (IATA), which configures within a 4D interval box the SSI topology. We map the SSI topology to an algebraic system's solutions within the framework, classify and enumerate all topological cases as a mixture of four fundamental cases (or their specific sub-cases). Various complicated topological situations are covered, such as cusp points or curves, tangent points (isolated or not) or curves, tiny loops, self-intersections, or their mixtures. The theoretical formulation is also implemented numerically using advanced real solution isolation techniques, and computed within a topology-driven framework which maximally utilizes the advantages of the topology maintenance of algebraic analysis, the robustness of iterative subdivision, and the efficiency of forward marching. The approach demonstrates improved robustness under benchmark topological cases when compared with available open-source and commercial solutions, including IRIT, SISL, and Parasolid.
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