Until today the design of complex drive- and motion systems is inseparable involved with the application of
an efficient simulation software. Our foci of research and application belong to this environment of the
efficient application and specific enhancement of commercial CAD/MKS/FEM – tools. Regulation-technical
oriented applications for a complex drive optimization play also a decisive role.
For special applications and in the environment of research projects ensues an implementation and
verification of new mathematical algorithms and calculation on the basis of own software applications
and calculation tools.
multi-body simulation
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basic system design by FEM-calculation
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processor simulation by ITI: SimulationX
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development of virtual prototypes
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| multi-body simulation |
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basic system design by FEM-calculation |
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processor simulation by ITI: SimulationX |
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development of virtual prototypes |
| Main Foci of the Research |
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- Development and implementation of calculation- and optimization algorithms
- Method-development to integrate CAD and calculation
- Component optimization, serrated spots- and vibration analyses
- Optimization of regulation-technical parameters
- Verification of virtual prototypes (HiL/SiL – simulations)
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| Service Offer for the Industry |
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- Numeric algorithms and their software-sided implementation
- Design of worksheets to calculate drive systems
- Kinematic and dynamic CAD-analysis of complex drive systems
- Structure-dynamic 3D-calculations and optimizations, like strength- and modal analyses, component- and serrated spot optimization
- Durability calculation after FKM-principle
- Regulation-technical system simulation (HiL/SiL)
- Animation of motion cycles and assembly scenarios
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| Software Engineering Equipment |
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- PTC: ProEngineer mit BMX, MDX, MDO, DAO,MECHANICA
- PTC: Mathcad
- Autocad, ...
- ITI: SimulationX
- IFM: ALASKA
- RecurDyn
- Software development environments: Visual C++ 2005, Visual C# 2005
- and others
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