MSc in Mechatronic Engineering

Control Technologies for Industry 4.0

Year 1

• Digital control technologies and architectures
• Elective course (view Full curriculum )
• Modelling and simulation of mechatronic systems
• Electronic systems for mechatronics
• Estimation, filtering, and system identification or
• Fluid Automation
• Model-based software design
• Robotics

Year 2

• Convex optimization and engineering applications
• Modern design of control systems or
• Optimization for machine learning
• Laboratory of robust identification and control
• Free choice CONTR (view Full curriculum)
• Final project work or
• Tirocinio
• Automation and planning of production systems or
• Nonlinear control and aerospace applications

HW & Embedded Systems for Industry 4.0

Year 1

• Digital control technologies and architectures
• Elective course (view Full curriculum )
• Modelling and simulation of mechatronic systems
• Electronic systems for mechatronics
• Estimation, filtering, and system identification or
• Fluid Automation
• Mobile and sensor networks
• Robotics

Year 2

• Electronic Systems for Sensor Acquisition
• Modern design of control systems or
• Optimization for machine learning
• Power Electronics
• Free choice HW (view Full curriculum)
• Final project work or
• Tirocinio
• Automation and planning of production systems or
• Nonlinear control and aerospace applications

Industrial Technologies & Applications

Year 1

• Digital control technologies and architectures
• Elective course (view Full curriculum )
• Modelling and simulation of mechatronic systems
• Additive Manufacturing Systems and materials
• Electronic systems for mechatronics
• Estimation, filtering, and system identification or
• Fluid Automation
• Robotics

Year 2

• Dynamic design of machines
• Industrial Photonics
• Modern design of control systems or
• Optimization for machine learning
• Free choice IND (view Full curriculum)
• Final project work or
• Tirocinio
• Automation and planning of production systems or
• Nonlinear control and aerospace applications

Software Technologies for Automation

Year 1

• Digital control technologies and architectures
• Elective course (view Full curriculum )
• Modelling and simulation of mechatronic systems
• Electronic systems for mechatronics
• Estimation, filtering, and system identification or
• Fluid Automation
• Model-based software design
• Robotics

Year 2

• Modern design of control systems or
• Optimization for machine learning
• Operating systems for embedded systems
• Optimization and Simulation for Industrial Automation
• Free choice SW (view Full curriculum)
• Final project work or
• Tirocinio
• Automation and planning of production systems or
• Nonlinear control and aerospace applications

Technologies for eMobility

Year 1

• Digital control technologies and architectures
• Elective course (view Full curriculum )
• Modelling and simulation of mechatronic systems
• Electrical Technologies for eMobility
• Electronic systems for mechatronics
• Estimation, filtering, and system identification or
• Fluid Automation
• Robotics

Year 2

• Automotive control systems
• Modern design of control systems or
• Optimization for machine learning
• Free choice AUTO (view Full curriculum)
• Electric Motor Drives for powertrains or
• Networking technologies for connected vehicles
• Final project work or
• Tirocinio
• Automation and planning of production systems or
• Nonlinear control and aerospace applications

What you will learn?

The program has a technical interdisciplinary curriculum that is organized as follows:

• In Year 1 you will study the disciplines of mechatronic engineering (modeling of systems, mechanics, electronic systems, automatic control and robotics, electrical machines, computer science). First-semester classes are designed to equalize students’ levels to compensate for different backgrounds and prior knowledge.
• In Year 2 you will broaden your knowledge by integrating specialized topics of mechatronic engineering with laboratory activities. In Year 2, you will be able to choose among various optional courses.

You will also be able to choose from a variety of optional courses (free-choice credits) to further investigate some subjects belonging to your curriculum or to complete your training with additional and/or complementary subjects in different areas: automation and optimization processes, electronic drives, mechanical design, aerospace systems, information systems and operational verification of electronic systems.

Your Career as A Mechatronic Engineer Starts Here. You Will Be Able to Find a Job Mainly in Automation, Electronic, Electromechanical, and Mechanical Companies that Design and Produce Mechanical, Automotive, Aeronautical, Space, and Robotic Systems. You Will Also Be Able to Work in Manufacturing Industries Which Require the Ability to Integrate Mechanical Skills with Competencies in Electronics, Computer Science, Electrical Drives, and Automation.

You Will Be Able to Choose From A Variety of New Career Fields:

• Control Technologies for Industry 4.0 (CONTR): You Will Deal with Methodologies, Algorithms, and Control of Mechatronic Architectures;
• Software Technologies for Automation (SW): You Will Work on Operating Systems, Architectures, and Design Techniques for Automation Software;
• Hardware & Embedded Systems for Industry 4.0 (HW): You Will Focus on Embedded Systems, Hardware Platforms, and Electronic Technologies for Mechatronics;
• Technologies for Mobility (CARS): You Will Work on Electrical, Control, and Communication Technologies for New Electric Mobility;
• Industrial Technologies and Applications (IND): You Will Work on Mechanical Technologies, Additive Manufacturing, and Innovative Manufacturing Processes for Industry.

How will you learn it?

The Master’s degree programme is English-taught.

You will learn through face-to-face lectures, practicals in the classroom and computer labs, and experimental exercises, including self-learning and group activities.

The final thesis is a key step to "ground" the theoretical skills acquired during the courses. You can write your thesis in cooperation with research centres and/or companies. The thesis may include a curricular internship.

During the programme, you can also decide to go abroad for a period of study or an internship related to your thesis and you will be able to earn a double degree.