Uses and Examples of
SystemModeler makes it easy to develop detailed, realistic models in any industry or application area. A core set of physical and logical components is built-in, and custom libraries can be developed to represent the key elements and processes in any domain. Modeling, simulation, visualization, and analysis with Mathematica are tightly integrated, dramatically reducing development time.
Aerospace and Defense »
Model and test complex systems such as unmanned aerial vehicles (UAV), space robotics, and aircraft dynamics.
SystemModeler enables system- and component-level design and continuous testing and verification.
Automotive and Transportation »
Design and simulate vehicle dynamics, powertrain controllers, chassis and safety systems, and more with
SystemModeler. Combine with Mathematica for control system design and optimization.
Heavy Equipment »
SystemModeler to design and simulate heavy machinery with kinematic, dynamic, and thermal behaviors. Perform virtual prototyping, parameter optimization, and other analyses with Mathematica.
Model ships; underwater vehicles; floating structures; and guidance, navigation, and control (GNC) systems. Apply rigorous analytical techniques to the models using
Industrial Manufacturing »
Model new manufacturing processes prior to implementation or existing ones in order to diagnose problems. Use
Mathematica for analyses including pre- and post-processing of models, simulations, and results.
Consumer Products »
Design home appliances and other electronics systems with
SystemModeler and easily incorporate non-electronic elements, such as mechanical assemblies and temperature control, into the complete design.
SystemModeler to develop accurate models of wind, solar, and other power generation and distribution systems. Combine with Mathematica for further optimization and analysis.
Life Sciences »
SystemModeler for modeling and analysis throughout drug discovery, development, clinical trials, and manufacturing. The flexible environment supports application areas such as systems biology, bioinformatics, and more.
Use the examples from a wide range of application areas to learn about modeling and simulation with
SystemModeler and the Modelica language.