Program Overview

Introduction to the Master's Program in Automotive Engineering

The Master's program in Automotive Engineering is designed to provide students with a comprehensive understanding of the principles and practices involved in the design, development, and manufacture of automotive systems and components.

Program Structure

The program is divided into four main areas of specialization:

• Advanced Manufacturing and Logistics
• Advanced Product Design
• Connected and Autonomous Vehicles
• Sustainable Propulsion Systems

Advanced Manufacturing and Logistics

This specialization focuses on the application of advanced manufacturing technologies and logistics management in the automotive industry. The curriculum includes courses such as:

• Car body design and aerodynamics
• Numerical Modelling and simulation
• Project management and cost/value analysis
• Propulsion systems and their applications to vehicles
• Driver assistance system design
• E-powertrain components
• Energy management in hybrid and electric vehicles

Advanced Product Design

This specialization emphasizes the design and development of automotive products, including the application of advanced materials and technologies. The curriculum includes courses such as:

• Car body design and aerodynamics
• Numerical Modelling and simulation
• Project management and cost/value analysis
• Propulsion systems and their applications to vehicles
• Driver assistance system design
• E-powertrain components
• Energy management in hybrid and electric vehicles
• Body and interiors design
• Communication and network systems
• Vehicle noise and vibration
• Vehicles dynamics simulation

Connected and Autonomous Vehicles

This specialization focuses on the development of connected and autonomous vehicle technologies, including the application of advanced sensors, software, and communications systems. The curriculum includes courses such as:

• Car body design and aerodynamics
• Electrical drives for eMobility
• Numerical Modelling and simulation
• Propulsion systems and their applications to vehicles
• Driver assistance system design
• E-powertrain components
• Energy management in hybrid and electric vehicles
• Communication and network systems
• Data analysis and Artificial Intelligence
• Electronic systems for vehicles
• Vehicles dynamics simulation

Sustainable Propulsion Systems

This specialization emphasizes the development of sustainable propulsion systems, including the application of alternative fuels, hybrid and electric powertrains, and advanced energy management systems. The curriculum includes courses such as:

• Car body design and aerodynamics
• Electrical drives for eMobility
• Numerical Modelling and simulation
• Propulsion systems and their applications to vehicles
• Driver assistance system design
• E-powertrain components
• Energy management in hybrid and electric vehicles
• Electronic systems for vehicles
• Engine emissions control
• Motor Control Algorithms for e-Powertrains
• Powertrain components design

Career Opportunities

Graduates of the Master's program in Automotive Engineering can pursue a wide range of career opportunities in the automotive industry, including:

• Design and development of automotive systems and components
• Manufacturing and logistics management
• Research and development of new technologies and materials
• Consulting and advisory services
• Government and regulatory agencies

Conclusion

The Master's program in Automotive Engineering provides students with a comprehensive education in the principles and practices of automotive engineering, preparing them for a wide range of career opportunities in the industry. With its strong focus on advanced technologies and sustainable systems, this program is ideal for students who are passionate about the automotive industry and want to make a positive impact on the environment.