Opcije pristupačnosti Pristupačnost
Englishen Hrvatskihr

Mechatronics

 

Location

Ivana Meštrovića 10, 47000 Karlovac  

Duration

2 years (4 semesters)

Points

120 ECTS

Degree

mag. ing. mech.

Contact

     Filip Žugčić

    fzugcic@vuka.hr


  1. Assess the application of mathematical, computational and statistical methods and tools in modelling, simulation and analysis of complex mechatronic systems.   
  2. Evaluate computer tools, technologies and algorithms in mechatronics, analysing their impact from the aspect of automation, robotisation, networking and artificial intelligence.   
  3. Recommend appropriate control and sensor components for mechatronic systems, taking into account compatibility, efficiency and integration into mechatronic systems.   
  4. Predict the performance and functionality of automated systems, taking into account different areas such as industrial automation, robotics and autonomous cars.   
  5. Determine the principles of operation of robotic systems in industrial and mobile robotics and argue the phases of modelling, design, programming and testing of the system.   
  6. Select appropriate drive and energy elements of mechatronic systems, taking into account energy requirements, performance and efficiency.   
  7. Evaluate different approaches to the design and construction of mechatronic systems and justify the choice of elements, system modules, construction tools, technologies and materials.   
  8. Compare production technologies and systems in the context of product development, automation, computer-aided manufacturing and maintenance.   
  9. Critically assess new technologies and the application of innovations in engineering practice.   
  10. Select engineering projects and, through the implementation of projects, self-assess teamwork and interdisciplinary communication.   
  11. Defend professional content and technical solutions using Croatian and foreign languages as well as appropriate professional standards.   
  12. Conclude on the impact of mechatronics and robotics on society, economy and environment, taking into account ethical principles, legal norms and safety aspects. 

 

   Syllabi.pdf

Semester: 1
Computational Mathematics
Embedded Computer Systems
Robotic Systems
Computer-Aided Design
Non-metallic and Composite Materials
Semester: 2
Introduction to Data Science
Modelling and Simulation of Mechatronic System
Sensors and Actuators in Mechatronics and Robotics
Energy Storage Systems
Additive Manufacturing
Semester: 3
Project
Machine Learning
Linux Operating System
Control Systems and Automation
*Object Oriented Programming
*Automotive Mechatronic Systems
*Programmable Logic Controllers (PLC)
*Renewable Energy Sources
*Digital Systems Development
Semester: 4
Final Thesis
Professional Internship
Foreign Language
*Internet of things (IoT)
*Robot Programming (ROS)
*Machine and System Maintenance

*Elective courses