Master Thesis Projects - in ModSimCompMech: Difference between revisions
MartinServin (talk | contribs) No edit summary |
MartinServin (talk | contribs) No edit summary |
||
Line 25: | Line 25: | ||
* evaluation of models for boundary conditions | * evaluation of models for boundary conditions | ||
* management of shared memory between CPU and GPGPU | * management of shared memory between CPU and GPGPU | ||
==Analytical system dynamics== | |||
Testing theoretical models and numerical simulations of coupled systems including: rigid multibodies, hydraulics (fluid power), electrical networks, heat transfer. | |||
==Adaptive resolution in particle fluid simulation== | ==Adaptive resolution in particle fluid simulation== |
Revision as of 13:24, 10 September 2010
We offer projects mainly in computational science and engineering. Your background could be applied mathematics, computer science, computational physics, control, mechanical engineering, robotics - but this is not exclusive. Please contact us with your interest and CV. Feel free also to propose thesis project by yourself.
Announced projects
Merge/split in rigid multibody simulation
Adaptive simplification of rigid multibody systems by merging bodies into agglomerate superbodies can accelerate large-scale simulation by many orders in magnitude. The actions must preserves physical invariants, minimizes computational time, produce consistent pressure force distributions and allow for impulse propagation. Application to vehicle or robot simulations with large piles of contacting bodies.
Comparative study between different rigid body simulation software
Study quantitative results in dynamics, computational performance, memory managment and parallelization opportunities between different rigid body simulation software. Both theory and numerical experiments with a set of test scenes relevant for using the software for virtual prototyping of complex mechanical systems. The softwares are (tentative list) AgX Multiphysics, Bullet Physics, EDEM.
Quantitative analysis of frictional contact models and solvers
Implement different formulations of dry friction for rigid bodies - some old and some new; performance analysis including: testing pipeline, design of statistical measures, scientific visualization of results.
Parallel numerical solutions of sparse linear systems
- hierarchical data formats for sparse matrices
- factorization update and downdate
- load balancing
- quantitative comparisons to existing libraries
Geometric contact reduction for 3D objects
It is possible to identify contact points that are redundant to the dynamics contacting rigid body system simulations. Eliminating redundant contact can have dramatic effect on the computational performance. The project include: implementing existing models, development of new techniques (advanced), quantitative evaluation of contact set quality.
Multiphysics: coupling of fluid with rigid multibody dynamics on GPGPU
- evaluation of solvers
- evaluation of models for boundary conditions
- management of shared memory between CPU and GPGPU
Analytical system dynamics
Testing theoretical models and numerical simulations of coupled systems including: rigid multibodies, hydraulics (fluid power), electrical networks, heat transfer.
Adaptive resolution in particle fluid simulation
Extension of existing constraint based particle fluids to adaptive level of detail. Alternatives to particle representation of coarse grained regions. Application to industrial systems or scientific studies of ocean freak waves.
Real-time simulation models of ground-tire interaction and transmission lines
New contact model for ground-tire interaction suitable for real-time simulation of constrained multibody systems. Constraint based modeling of transmission lines. Applications to new design of terrain vehicles.
New contact and friction models
Contact reduction (theory, implementation, analysis); evaluation of a number of existing contact models (implementation, analysis) of Anitescu/Potra, Anitescu/Hart, Kaufamn/Pai, pairwise models, Kane/Pandolfi; development of a new model including reduction, delocalization and aspirity (theory, implementation, analysis); splitting technique for friction LCP solver.
Sparse parallel solvers with applications to QP
Sparse parallel factorization of LDL update and downdate with applications to quadratic programming (QP); block pivot methods for QPs (smoothing, splitting, application to frictional contacts, direct iterative hybrid solver); splitting techniques for frictional LCP solver; GPGPU techniques (sparse direct LDL solver, CG preconditioning, application to QP contact problems).
Time-integration of non-smooth dynamical systems
Linear and nonlinear constraint stabilization, impacts and nonsmooth mechanics, geometric integration and invariants, stable integration of rotational degrees of frodeom, robotics O(N) solver for closed loop systems.
Continuous collision detection
New approach to continuous collision detection between fast moving thin cylinder geometries.
Interactive visco-elastic-plastic simulation (with Stanford University)
Haptic fluid simulation (with Stanford University)
Running projects
- Projected conjugate-gradient solver for contacting rigid bodies on GPGPU
- Parallel factorization of symmetric indefinite linear systems
- Viscoplastic constraint fluids