Space-time adaptive methods are essential for the efficient simulation of wave phenomena in the presence of complex geometry or material interfaces. Locally refined finite element meshes, however, hamper any explicit time-marching scheme as the global time-step will be dictated by a few tiny elements. By taking smaller steps in smaller and larger steps in larger elements, local time-stepping (LTS) methods overcome that severe bottleneck without sacrificing the inherent explicitness or parallelism.
Research project
1) Derive rigorous a posteriori error bounds for leapfrog (LF) based LTS methods applied to wave equations.
2) Devise a space-time adaptive algorithm which locally adapts "on the fly" the finite element mesh and the time-step to control the numerical error.
Your position
You will be integrated into the Numerical Analysis research group of Prof. Marcus Grote.
Your main task will be to conduct research on the SNSF project "Space-time Adaptive Explicit Time- Stepping for Wave Propagation”, funded by the Swiss National Science Foundation.
The position also includes a small teaching load (one homework session per week) as a teaching assistant.
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