Description

Book Synopsis

High quality meshes play a key role in many applications based on digital modeling and simulation. The finite element method is a paragon for such an approach and it is well known that quality meshes can significantly improve computational efficiency and solution accuracy of this method. Therefore, a lot of effort has been put in methods for improving mesh quality. These range from simple geometric approaches, like Laplacian smoothing, with a high computational efficiency but possible low resulting mesh quality, to global optimization-based methods, resulting in an excellent mesh quality at the cost of an increased computational and implementational complexity.

The geometric element transformation method (GETMe) aims to fill the gap between these two approaches. It is based on geometric mesh element transformations, which iteratively transform polygonal and polyhedral elements into their regular counterparts or into elements with a prescribed shape. GETMe combines a Laplacian

Table of Contents

Introduction. Elements and Meshes. The Finite Element Method. Mesh Improvement. Regularizing Element Transformations. The GETMe Smoothing Framework. Numerical examples. Extending the GETMe Framework. References. Index.

The GETMe Mesh Smoothing Framework

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    A Hardback by Dimitris Vartziotis, Joachim Wipper

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      View other formats and editions of The GETMe Mesh Smoothing Framework by Dimitris Vartziotis

      Publisher: CRC Press
      Publication Date: 12/3/2018 12:00:00 AM
      ISBN13: 9780367023423, 978-0367023423
      ISBN10: 0367023423

      Description

      Book Synopsis

      High quality meshes play a key role in many applications based on digital modeling and simulation. The finite element method is a paragon for such an approach and it is well known that quality meshes can significantly improve computational efficiency and solution accuracy of this method. Therefore, a lot of effort has been put in methods for improving mesh quality. These range from simple geometric approaches, like Laplacian smoothing, with a high computational efficiency but possible low resulting mesh quality, to global optimization-based methods, resulting in an excellent mesh quality at the cost of an increased computational and implementational complexity.

      The geometric element transformation method (GETMe) aims to fill the gap between these two approaches. It is based on geometric mesh element transformations, which iteratively transform polygonal and polyhedral elements into their regular counterparts or into elements with a prescribed shape. GETMe combines a Laplacian

      Table of Contents

      Introduction. Elements and Meshes. The Finite Element Method. Mesh Improvement. Regularizing Element Transformations. The GETMe Smoothing Framework. Numerical examples. Extending the GETMe Framework. References. Index.

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