Dynamics of mechanisms:
Main principles of modeling of mechanisms
Lagrange equations
Newton-Euler equations
Dynamics of mechanisms in Pro/Engineer
Dynamics of mechanisms in MSC/Adams,
Mathematical models of mechanisms in Matlab environment.
Dynamics and control of drives:
Modeling of the drive dynamics
Torque control of the drives
Control of mechatronic systems:
State - space representation
Linearization of the nonlinear systems
Synthesis of the optimal control.
Simulation of the mechatronic systems:
Co-Simulation of the behavior of mechatronic systems in Matlab
and MSC/Adams environment
Investigation of the interactions among individual subsystems
Possibilities of optimalization of the entire mechatronic system
Main principles of modeling of mechanisms
Lagrange equations
Newton-Euler equations
Dynamics of mechanisms in Pro/Engineer
Dynamics of mechanisms in MSC/Adams,
Mathematical models of mechanisms in Matlab environment.
Dynamics and control of drives:
Modeling of the drive dynamics
Torque control of the drives
Control of mechatronic systems:
State - space representation
Linearization of the nonlinear systems
Synthesis of the optimal control.
Simulation of the mechatronic systems:
Co-Simulation of the behavior of mechatronic systems in Matlab
and MSC/Adams environment
Investigation of the interactions among individual subsystems
Possibilities of optimalization of the entire mechatronic system