An isogeometric design-through-analysis methodology based on adaptive hierarchical refinement of NURBS, immersed boundary methods,  and T-spline CAD surfaces

Dominik Schillinger; Luca Dede; Michael A. Scott; John A. Evans; Michael J. Borden; Ernst Rank; Thomas J.R. Hughes

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An isogeometric design-through-analysis methodology based on adaptive hierarchical refinement of NURBS, immersed boundary methods, and T-spline CAD surfaces

机译：基于NURBS的自适应分层细化，沉浸边界方法和T样条CAD曲面的等几何分析设计方法

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摘要

We explore hierarchical refinement of NURBS as a basis for adaptive isogeometric and immersed boundary analysis. We use the principle of B-spline subdivision to derive a local refinement procedure, which combines full analysis suitability of the basis with straightforward implementation in tree data structures and simple generalization to higher dimensions. We test hierarchical refinement of NURBS for some elementary fluid and structural analysis problems in two and three dimensions and attain good results in all cases. Using the B-spline version of the finite cell method, we illustrate the potential of immersed boundary methods as a seamless isogeometric design-through-analysis procedure for complex engineering parts defined by T-spline CAD surfaces, specifically a ship propeller and an automobile wheel. We show that hierarchical refinement considerably increases the flexibility of this approach by adaptively resolving local features.

机译：我们探索NURBS的分层细化，作为自适应等几何和浸入式边界分析的基础。我们使用B样条细分的原理来推导局部优化程序，该程序将基础的完全分析适用性与树数据结构中的直接实现以及对更高维度的简单概括相结合。我们针对二维和三维的一些基本流体和结构分析问题，对NURBS进行了分级优化测试，并在所有情况下均取得了良好的结果。使用有限单元法的B样条版本，我们说明了浸入边界方法作为通过T样条CAD曲面（特别是船用螺旋桨和汽车轮毂）定义的复杂工程零件的无缝等几何分析设计程序的潜力。。我们表明，通过自适应地解决局部特征，层次细化极大地增加了此方法的灵活性。

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《Computer Methods in Applied Mechanics and Engineering》 |2012年第1期|116-150|共35页
作者
Dominik Schillinger; Luca Dede; Michael A. Scott; John A. Evans; Michael J. Borden; Ernst Rank; Thomas J.R. Hughes;
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作者单位

Lehrstuhl fuer Computation in Engineering, Technische Universitat Muenchen, Arcisstr. 21, 80333 Munchen, Germany,Institute for Computational Engineering and Sciences, The University of Texas at Austin, 1 University Station C0200, Austin, TX 78712, USA;

Institute for Computational Engineering and Sciences, The University of Texas at Austin, 1 University Station C0200, Austin, TX 78712, USA;

Institute for Computational Engineering and Sciences, The University of Texas at Austin, 1 University Station C0200, Austin, TX 78712, USA;

Institute for Computational Engineering and Sciences, The University of Texas at Austin, 1 University Station C0200, Austin, TX 78712, USA;

Institute for Computational Engineering and Sciences, The University of Texas at Austin, 1 University Station C0200, Austin, TX 78712, USA;

Lehrstuhl fuer Computation in Engineering, Technische Universitat Muenchen, Arcisstr. 21, 80333 Munchen, Germany;

Institute for Computational Engineering and Sciences, The University of Texas at Austin, 1 University Station C0200, Austin, TX 78712, USA;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
isogeometric analysis; hierarchical refinement; adaptivity with nurbs; immersed boundary analysis; finite cell method; T-spline CAD surfaces;

机译：等几何分析层次细化;适应性强;沉浸边界分析;有限元法T样条CAD曲面;

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专利

1. Isogeometric collocation: Cost comparison with Galerkin methods and extension to adaptive hierarchical NURBS discretizations [J] . Dominik Schillinger, John A. Evans, Alessandro Reali, Computer Methods in Applied Mechanics and Engineering . 2013,第DECa1期

机译：等距配置：与Galerkin方法进行成本比较，并扩展到自适应分层NURBS离散化
2. CAD-consistent adaptive refinement using a NURBS-based discontinuous Galerkin method [J] . International Journal for Numerical Methods in Fluids . 2020,第9期

机译：CAD-一致的自适应改进，使用基于NURBS的不连续的Galerkin方法
3. Adaptive isogeometric analysis by local h-refinement with T-splines [J] . Michael R. Doerfel, Bert Juettler, Bernd Simeon Computer Methods in Applied Mechanics and Engineering . 2010,第5a8期

机译：通过T样条曲线的局部h细化进行自适应等几何分析
4. Adaptive Mesh Refinement Strategies for Immersed Boundary Methods [C] . E. Balaras, M. Vanella AIAA Aerospace Sciences Meeting Including The New Horizons Forum and Aerospace Exposition . 2009

机译：沉浸式边界方法的自适应网格细化策略
5. Adaptive Mesh Refinement Strategies for the Immersed Interface Method. [D] . Song, Peng. 2013

机译：沉浸式界面方法的自适应网格细化策略。
6. The role of Bézier extraction in adaptive isogeometric analysis: Local refinement and hierarchical refinement [O] . R. de Borst, L. Chen -1

机译：Bézier提取在自适应等几何分析中的作用：局部细化和层次细化
7. B\'{e}zier projection: a unified approach for local projection and quadrature-free refinement and coarsening of NURBS and T-splines with particular application to isogeometric design and analysis [O] . Thomas, Derek C., Scott, Michael A., Evans, John A., 2014

机译：B \'{e} zier投影：局部投影和投影的统一方法 NURBs和T样条的无正交细化和粗化特殊应用于等几何设计和分析
8. Isogeometric Design-through-analysis Methodology based on Adaptive Hierarchical Refinement of NURBS, Immersed Boundary Methods, and T-spline CAD Surfaces. [R] . Schillinger, D., Dede, L., Scott, M. A., 2012

机译：基于NURBs，浸入边界方法和T样条CaD表面的自适应分层细化的等几种设计 - 分析方法。

An isogeometric design-through-analysis methodology based on adaptive hierarchical refinement of NURBS, immersed boundary methods, and T-spline CAD surfaces

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