Study Program: Mechatronics - BSc

The learning outcomes are defined in accordance with the mission and strategic objectives of the Faculty of Mechanical Engineering and are harmonized with the National Qualifications Framework (NQF) and the best European practices in higher education. Therefore, upon successful completion of Bachelor studies in the Mechatronics program, the student will be able to:

1. Apply fundamental knowledge of mathematics, physics, and informatics to model, analyze, and solve engineering problems relevant to mechatronics systems.
2. Understand and interpret technical drawings and apply CAD tools (such as SolidWorks) for designing mechanical components and systems.
3. Demonstrate knowledge of mechanical and electrical materials, technical mechanics, and machine elements to design and analyze components in mechatronic systems.
4. Analyze and implement algorithms and data structures for embedded systems and software development in engineering applications.
5. Design and control dynamic systems, applying principles from system dynamics, control theory, and measurement techniques.
6. Utilize electrical and electronic circuit design, electrotechnics, and electrical drives in the development of intelligent mechatronic systems.
7. Apply knowledge in hydraulics and pneumatics, thermodynamics, and energy systems for the operation and control of automated systems.
8. Understand production theory, organizational principles, and the role of information technologies in modern manufacturing systems.
9. Implement programming solutions using languages such as Python and understand the role of IoT in modern engineering applications.
10. Work effectively in multidisciplinary teams, communicate technical information clearly, and apply ethical and professional standards in engineering practice.
11. Utilize engineering software tools, including those used in automation and simulation, for solving complex mechatronic problems.
12. Pursue continuous learning to adapt to technological advancements in the field of mechatronics, automation, and energy systems.