Dynamics of multidisciplinary and controlled systems

This course was developed within the EU Leonardo da Vinci Programme project DynLAB coordinated by the Czech Technical University.

The course modules are divided into four parts:

Modeling and Simulation: by H. Mann, Computing and Information Centre, Czech Technical University in Prague
Modeling of Semiconductor Devices: by C. Clauss, K. Diener and P. Trappe, Fraunhofer-Institut für Integrierte Schaltungen, Dresden
System Control: by C. Schmid, Lehrstühl für Automatisierung und Prozeßsinformatik, Ruhr-Universität Bochum
Nonlinear Control Systems: by D.P. Atherton, Department of Engineering and Design, University of Sussex, Falmer

Project software was mostly developed by M. Sevcenko, Czech Technical University in Prague.

You might be also interested in modules developed within the earlier EU Socrates ODL project RichODL coordinated by the Czech Technical University:

Modeling of electromechanical systems
Simulation and control, a first course
Examples in Maple, Simulink and DYNAST: by W. Haas, K. Schlacher and R. Gahleitner, Department of Automatic Control, Johannes Kepler University Linz
Distributed-parameter multipoles
Numerical differential-equation solvers
Sources of computational errors: by R. Piché, Department of Mathematics, Tampere University of Technology
Modeling of robotic systems: by A. Jochheim, M. Gerke, A. Bischoff, Prozeßsteuerung und Regelungstechnik, FernUniversität Hagen

DynLAB Course: Dynamics of multidisciplinary and controlled systems