We develop a method for solving elliptic partial differential equations on surfaces described by CAD patches that may have gaps/overlaps. The method is based on hybridization using a three-dimensional mesh that covers the gap/overlap between patches. Thus, the hybrid variable is defined on a three-dimensional mesh, and we need to add appropriate normal stabilization to obtain an accurate solution, which we show can be done by adding a suitable term to the weak form. In practical applications, the hybrid mesh may be conveniently constructed using an octree to efficiently compute the necessary geometric information. We prove error estimates and present several numerical examples illustrating the application of the method to different problems, including a realistic CAD model.
翻译:我们开发了一种方法来解决CAD补丁描述的表面表面的椭圆部分差分方程,该方法可能存在差距/重叠;该方法以混合化为基础,使用三维网格,覆盖补丁之间的差/重叠;因此,混合变量以三维网格定义,我们需要增加适当的正常稳定,以获得准确的解决办法,我们显示,通过在弱型中添加一个合适的术语,可以做到这一点;在实际应用中,混合网格可以方便地构建,使用奥氏树来有效计算必要的几何信息;我们证明错误估计,并提出数个数字例子,说明该方法对不同问题的应用,包括一个现实的CAD模型。
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