Master in Robotics & Advanced Mechatronics
- Feb 17
- 2 min read
100% Research-Based | EQF Level 7 | 60 ECTS | Second European Cycle
The Master in Robotics & Advanced Mechatronics is an advanced postgraduate program designed to prepare professionals for strategic and technical leadership roles in intelligent systems engineering, automation industries, and next-generation robotic innovation. Fully research-based and academically aligned with EQF Level 7, the program is equivalent to the Second Cycle of European Higher Education and awards 60 ECTS credits.
This program develops advanced expertise in robotic systems design, autonomous technologies, advanced mechatronic integration, control systems engineering, AI-driven robotics, sensor technologies, embedded systems, and industrial automation frameworks. Through a strong research orientation, students critically analyze smart manufacturing systems, human-robot interaction models, precision robotics, cyber-physical systems, and the integration of robotics within Industry 4.0 environments. The academic framework ensures that graduates can design intelligent, efficient, and scalable robotic solutions for complex industrial and technological challenges.
The academic structure consists of five core modules:
Two research-focused modules dedicated to advanced research methodology, robotics modeling, quantitative system analysis, simulation techniques, and academic writing.
Two general management modules covering strategic engineering leadership, innovation management, technology governance, and global industrial systems.
One specialization module focused specifically on robotic design architecture, advanced mechatronic systems, automation engineering, control algorithms, and integrated mechanical-electrical systems.
The program culminates in a master’s thesis and structured research activities, enabling students to conduct independent research on contemporary topics such as autonomous robotic systems, AI-integrated automation, robotic vision systems, smart factory robotics, advanced control systems, or sustainable industrial robotics. The final research project demonstrates analytical depth, technical mastery, and strategic innovation capability in advanced robotic systems.
The minimum duration is 12 months, with flexibility to extend the study period according to professional commitments. This structure makes the program particularly suitable for robotics engineers, automation specialists, mechatronics professionals, R&D engineers, industrial system designers, and technology innovators seeking advanced academic qualifications while continuing their careers.
Graduates are prepared for senior roles in robotics development, automation engineering leadership, advanced manufacturing systems, research and development departments, high-tech industries, and global technology enterprises.
