Advance Mechatronics Simulation Engineer

Training Outcomes:
At the end of the program, the learner should have acquired the listed knowledge and skills.
 – Modelling and simulation of the behaviour of mechatronic system before physical
implementation.
–  Integrate realistic physics and mathematical models and dynamic simulations to
accurately represent mechatronic system behaviour.
Observe multi body dynamics of the system and observe the motion of gears,cams and
linkages.
–  Conduct thorough testing and validation of mechatronics simulations to ensure accuracy
and reliability. Troubleshoot and refine models based on simulation results
–  Optimize current process to enhance the results keeping
energy,efficiency,speed,accuracy and reliability in mind .Document simulation
methodologies, parameters, and results for future reference.
–  Advanced Simulation Techniques: Mastery of advanced simulation software and
techniques used in mechatronics systems design and analysis. This includes proficiency
in tools like MATLAB/Simulink, ANSYS, or other specialized software used for multi
domain simulations.
–  Mechatronics Principles: Deep understanding of mechatronics principles, which combine
mechanical, electrical, and software engineering concepts. This includes knowledge of
sensors, actuators, control systems, and their integration into complex mechatronic
systems.
–  System Modeling and Optimization: Ability to create accurate mathematical models of
mechatronic systems and optimize them for performance, efficiency, and reliability. This
involves understanding dynamic systems, control theory, and optimization algorithms.
–  Virtual Prototyping: Proficiency in virtual prototyping techniques to simulate and
validate the performance of mechatronic systems before physical prototyping and
production. This involves creating virtual models of components and systems to assess
their behavior under various operating conditions.