Master in “EXPERIMENTAL MOBILITY” Design of Terrestrial & Aerial Futures
An advanced Master’s program dedicated to the design of the mobility of the future, to imagine and develop experimental terrestrial and aerial vehicles and systems,both autonomous and piloted.
Overview
Design of the mobility of the future: work on experimental vehicles and systems—terrestrial and aerial, autonomous and piloted.
In collaboration with industrial partners specialized in innovative mobility solutions, who will provide project briefs and technical support throughout the development process.
Analyze and design the integration of future mobility systems within urban and extra-urban environments.
Start date: January 11th, 2027
Design Philosophy
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Human–Machine–Environment Integration
Designing vehicles that interact seamlessly with the user and their context, intelligently adapting to urban, extra-urban, and aerial scenarios.
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Formal and Engineering Research
Applying advanced geometries, materials, and aerodynamic or aerospace solutions while maintaining coherence between aesthetics and function.
Technological Experimentation
Exploring alternative propulsion systems and immersive control technologies.
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Scenario-Based Design Vision
Developing integrated ecosystems that encompass infrastructure, services, sustainability, and social impact.
Course Structure
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Theoretical Modules:
History and future of advanced mobility, aerodynamics, interfaces and autonomous vehicles, innovative materials, ergonomics, and future transport scenarios.
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Practical Workshops
Sketching, 3D modeling, aerodynamic simulations, and physical prototyping.
Interdisciplinary Labs
Collaboration across design, engineering, robotics, UX, AI, sustainability, and smart mobility to integrate complex systems.
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Final Project
Development of an experimental mobility concept—terrestrial or aerial, autonomous or piloted—complete with brand identity, technical architecture, interface design, and a physical and/or virtual model.