Constrained planar remeshing for architecture

International Genetic Improvement Workshop Pub Date : 2007-05-28 DOI:10.1145/1268517.1268522

B. Cutler, E. Whiting

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引用次数: 48

Abstract

Material limitations and fabrication costs generally run at odds with the creativity of architectural design, producing a wealth of challenging computational geometry problems. We have developed an algorithm for solving an important class of fabrication constraints: those associated with planar construction materials such as glass or plywood. Starting with a complex curved input shape, defined as a NURBS or subdivision surface, we use an iterative clustering method to remesh the surface into planar panels following a cost function that is adjusted by the designer. We solved several challenging connectivity issues to ensure that the topology of the resulting mesh matches that of the input surface. The algorithm described in this paper has been implemented and developed in conjunction with an architectural design seminar. How the participants incorporated this tool into their design process was considered. Their important feedback led to key algorithmic and implementation insights as well as many exciting ideas for future exploration. This prototype tool has potential to impact not only architectural design, but also the engineering for general fabrication problems.

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建筑的约束平面网格划分

材料限制和制造成本通常与建筑设计的创造性相矛盾，产生了大量具有挑战性的计算几何问题。我们开发了一种算法来解决一类重要的制造约束:与平面建筑材料(如玻璃或胶合板)相关的约束。从一个复杂的曲线输入形状开始，定义为NURBS或细分曲面，我们使用迭代聚类方法根据设计者调整的成本函数将曲面重新网格划分为平面面板。我们解决了几个具有挑战性的连接问题，以确保最终网格的拓扑结构与输入表面的拓扑结构匹配。本文中描述的算法是与一个建筑设计研讨会一起实现和开发的。参与者如何将这个工具纳入他们的设计过程中被考虑。他们的重要反馈带来了关键的算法和实现见解，以及许多令人兴奋的未来探索想法。这个原型工具不仅对建筑设计有潜在的影响，而且对一般制造问题的工程也有潜在的影响。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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International Genetic Improvement Workshop

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