Monday July 25/3:30
Theory and Industrial Practice of the h-p Version of FEM (Part 2 of 2)
In recent years, much progress has been made in the theory and industrial practice of the h-p FEM. Commercial (e.g. polyFEM, MSC/PROBE, PHLEX, Applied Structure), and research (e.g. PEGASYS, STRIPE) codes are now available. This minisymposium will give the audience a picture of the state of the art, both from a mathematical and an industrial perspective. The first part will cover advances in areas such as three-dimensional approximation theory, adaptivity and a-posteriori error estimation, efficient h-p solvers and commercial implementation. The second part will concentrate on mixed methods, boundary element methods, parallel computations and engineering modeling.
Organizer: Benqi Guo, University of Manitoba, Canada
(For part 1, see MS4.)
- 3:30: Mixed h-p Finite Element Methods for Elasticity Problems.
Manil Suri, University of Maryland Baltimore County
- 4:00: Iterative Substructuring Methods for p-version Finite Elements in Three Dimensions.
Olof Widlund, Courant Institute of Mathematical Sciences, New York University
- 4:30: The h-p Version of the Boundary Element Method for Acoustic Scattering Problems.
Ernst P. Stephan, UniversitĄt Hannover, Germany
- 5:00: A Parallel Solver for the h-p Version of Finite Element Method.
Xianzhong Guo, Engineering Software Research & Development, Inc., St. Louis