The academic content and curriculum of the Bachelor of Science in Mechatronics Engineering is built on the fundamental concepts of the engineering field and extends these foundations by focusing on the design, development and implementation of mechatronic systems. The program usually lasts four years and aims to provide students with a broad theoretical knowledge and practical skills.
In the first years of the program, students take general engineering courses. These courses include topics covering basic math, physics, computer science and engineering principles. These core courses provide students with the necessary background for a deeper understanding of mechatronics engineering topics.
In later years, the curriculum moves towards more specialized courses. These courses usually include the following subjects:
Electronics and Electrical Circuits: Covers topics such as electronic components, circuit theory and applications, microcontrollers and integrated circuits.
Mechanics and Materials Science: The design and analysis of mechanical systems, material properties and selection, and the study of static and dynamic systems.
Computer Science and Programming: This category includes algorithm development, data structures, software engineering and working with different programming languages.
Control Systems and Automation: Feedback control systems, automatic control theory, robotics and artificial intelligence applications are among these courses.
Sensors and Actuators: The working principles, applications and integration of different types of sensors and actuators into systems are included in this topic.
Design and Production: Design of mechatronic systems, prototyping, manufacturing processes and CAD/CAM systems are covered in this area.
Project Management and Engineering Ethics: Management of engineering projects, teamwork, project planning and engineering ethics are also included in the curriculum.
Furthermore, students are encouraged to apply their theoretical knowledge in practical projects and laboratory work. This helps students develop the skills to generate solutions to real-world problems. Internships and projects in collaboration with industry enable students to understand industry practices and gain professional experience.
At the end of the program, students usually complete a capstone project or thesis. This project requires students to design and implement a comprehensive mechatronics system, bringing together the knowledge and skills gained throughout the program. Such projects help students develop skills such as problem solving, analytical thinking and project management and prepare them for their careers after graduation.