Smart and Sustainable Industry and Sports Engineering Tracks Presentation

Lecco Campus, Aula B2.5
4pm 

The event can also be attended online. We will share the access link closer to the date.

To confirm participation, students are kindly requested to complete this form.

Smart and Sustainable Industry (FA6)
The Smart and Sustainable Industry track prepares mechanical engineers to design, manage, and optimize sustainable industrial systems by integrating Industry 4.0 technologies. These include the Industrial Internet of Things, Cyber-Physical Systems, Artificial Intelligence, and Cloud Computing. The program emphasizes both theoretical understanding and practical application, enabling students to work with smart technologies across the full lifecycle of industrial products. Training focuses on developing skills for designing innovative machinery and production plants, managing intelligent and sustainable manufacturing processes, and applying numerical and mathematical models to improve system performance. The track is aimed at students interested in industrial sustainability and experimentation. While no additional prerequisites are required beyond those of other Mechanical Engineering tracks, strong foundations in mathematics and physics are recommended. Career opportunities include companies involved in machinery and plant design, mechanical components, energy systems, occupational safety, and a variety of industrial services. The track also anticipates the establishment of international mobility agreements with universities in Europe, the United States, and Asia, further expanding opportunities for academic and professional growth.
More info here

Sports Engineering (CC6)
The Sports Engineering track trains mechanical engineers with specialized expertise in the design, development, and optimization of sports equipment. Its educational objectives focus on providing a deep understanding of biomechanical engineering principles applied to sports, covering the entire lifecycle of sports products. Students gain practical skills through exposure to advanced technologies such as wearable sensors, 3D printing, composite materials, artificial intelligence tools, and numerical or mathematical models for performance optimization. The track is particularly suited for students with a strong passion for sports and solid foundations in mathematics and physics, along with an inclination for hands-on, experimental activities. No specific prerequisites beyond those common in Mechanical Engineering are required. Graduates can pursue careers in companies that design or manufacture sports equipment, as well as in related sectors such as safety devices, rehabilitation tools, training gear, and areas where human–machine interaction is central. The program benefits from active research collaborations with leading companies, sports medicine centers, universities, and international-level teams or athletes, offering students valuable exposure to real-world applications.
More info here