Table of Contents

Preface. Boundary-Value Problems. Exact hp Sequences, Projection-Based Interpolation, De Rham Diagrams. 3D hp Finite Element Method. 3Dhp Code. Geometry Modeling. Automatic hp Adaptivity in Three Space Dimensions. High-Performance Computation. Two-Grid hp Solver. A Domain Decomposition-Based Parallel Implementation. Acoustic Scattering Problems. Electromagnetic Scattering Problems. 3D Elasticity and Thin-Walled Structures. Simulation of Resistivity Logging Devices. Conclusions and Future Work. Appendices. References. Index.

About the Author

Leszek Demkowicz, Jason Kurtz, David Pardo, Maciek Paszenski, Waldemar Rachowicz, Adam Zdunek

Reviews

"Together with the first volume, the second volume forms a unique, up-to-date, and self-contained presentation of the current status of hp-adaptive finite elements …This two-volume book is therefore strongly recommended to all mathematicians as well as engineers working on hp-adaptive finite element methods."
—Journal of Applied Mathematics and Mechanics"This is an elegant framework for the hp element with generalize classical elements of Nédélec, Raviart-Thomas, and Brezzi-Douglas-Marini . . . The authors provide here such a useful survey within 400 pages." – Dietrich Braess, in Mathematical Reviews, 2009e