OUR COMPETENCE IS DRIVEN BY OUR PASSION
Applied multi-body simulation and modelling are our core competences
We stand for innovation and creativity and provide solutions to your problems with modern and contemporary methods.
Modeling-Accurate Modeling
One of our focal points is the implementation of modeling for dynamic systems. Our modeling processes run through the various logical options to provide you with mathematical solutions that enable the interpretation and evaluation of your problem scenario.
- Analysis of the input parameters
- Derivation of the equations of motion (linear/non-linear differential equation systems) based on the physical processes.
- Modeling with the help of dynamic simulation programs such as MATLAB/Simulink, AMESim, Dymola, SimulationX
- Analysis of the numerical system stability
- Selection of the appropriate solver and solver parameters
Simulation - Reliable simulation
The mathematical simulation offers the possibility to attain in-depth knowledge about a real system from a model situation. A process is simulated in an experimental situation with different variables, the results of which are then interpreted.
- Derivation and determination of the relevant load cases.
- Implementation of the load cases in the model.
- Parametric studies
- Creation of simulation reports.
- Co-Simulation: Implementation, combination and extension of existing simulation models in a simulation software requested by the customer
Simulationssoftware
We have extensive know-how and years of experience with the following software products and are happy to support you with your projects.
- MATLAB/Simulink
- Dymola
- AMESim
- SimulationX
- Abaqus
- NX Nastran
Our reference projects
Automotive industry
Bio/Medical Industry
Robotics industry
Aviation / Aerospace Industry
With our methods we cover the following areas
Modeling and simulation of dynamic and hydro-mechanical systems
Parametric Analysis
Fluid Mechanics Calculations
Linear and non-linear finite element methods (FEM)
Dipl.-Ing. Gudrun Kinz
Project manager with many years of experience
- non-linear systems
- modeling and simulation
- differential equations
- FEM modeling
- multi-body simulation
- MATLAB/Simulink
- SimulationX
- AMESim
- Dymola
- FEMAP/NX Nastran
- Abaqus
- Matlab/Simulink
- Python
- Fortran
- VBA
Further training for companies
Our training focuses on all aspects of modern simulation methods relevant to mechanical engineering, such as applied multi-body simulation as our speciality, which are used in the design, calculation and layout of machines or machine components.
We offer basic and introductory workshops to perfectly prepare your employees for new areas of work or to deepen their knowledge.