Title :
Exploitation of the geometrical symmetry in the boundary element method with the group representation theory
Author :
Lobry, Jacques ; Broche, Christian
Author_Institution :
Service d´´Ingenierie des Reseaux Electr., Mons, Belgium
fDate :
1/1/1994 12:00:00 AM
Abstract :
We describe an implementation of the Boundary Element Method for the 2-D Laplace´s problem where the domains under study present some geometrical symmetry. The boundary conditions do not share the symmetry so that intuitive reasoning cannot be used to take part of symmetry. So, we use the Group Representation Theory that presents a rationale in this context. It consists in reducing the original problem to a family of smaller ones, the global solution is obtained from superposition of the partial solutions. It leads to a substantial gain in memory volume and achieves large computational cost savings. We consider the non-abelian symmetry groups that represent the most general case. We present the case of the dihedral group D3 as an example
Keywords :
boundary-elements methods; electric potential; electromagnetic field theory; group theory; 2D Laplace problem; EM field computation; boundary conditions; boundary element method; computational cost savings; dihedral group; electric scalar potential; geometrical symmetry; global solution; group representation theory; nonabelian symmetry groups; Boundary conditions; Boundary element methods; Computational efficiency; Costs; Crystallography; Electric potential; Electromagnetic fields; Quantum computing; Quantum mechanics; Reflection;
Journal_Title :
Magnetics, IEEE Transactions on
