Program Overview

Introduction to the Future Vehicle Technologies MSc Program

The Future Vehicle Technologies MSc program at Aston University is a multidisciplinary course designed to bridge the knowledge gap in the modern automotive industry, focusing on the production of intelligent, zero, and ultra-low emission vehicles.

Course Overview

This course covers the gap between fundamental engineering and practical engineering within the automotive industry. Students will develop their knowledge and awareness of cutting-edge developments and learn essential skills to meet the demands of the contemporary electrified automotive industry.

Course Objectives

The program aims to:

1. Bridge the multidisciplinary knowledge gap required to address the modern automotive industry by covering a wide range of topics.
2. Transfer a wide range of skills required to analyze and critique data and propose innovative solutions underpinned by engineering principles.
3. Provide the opportunity to practice professional planning and communication with a large audience.
4. Enable students to use a wide range of state-of-the-art engineering modeling tools for data analysis, performance prediction, and design components and subsystems within the context of future vehicle technologies.

Modules

The taught stage includes the following core modules:

• Machine Learning (15 credits)
• Smart Sensors and Control Systems (15 credits)
• Hybrid and Electric Powertrains (15 credits)
• Vehicle Automation and Connectivity (15 credits)
• New Engines and Alternative Fuels (15 credits)
• Future Vehicle Design (30 credits)
• Aston Global Advantage (15 credits)

The dissertation stage includes:

• Dissertation (60 credits)

Programme Outcomes

Upon successful completion of both the taught and dissertation stages, students will be able to:

• Create solutions to future challenges in the field of vehicle electrification by employing major concepts of mathematics, physics, and engineering.
• Predict solutions to typical constrained multi-physics engineering problems at the absence of actual data by employing a range of engineering computational tools.
• Produce innovative sustainable solutions underpinned by the principles of mathematics and engineering sciences together with computer-aided analysis to tackle the future challenges of hybrid, electric, and autonomous vehicles.

Entry Requirements

• A 2:2 (lower second-class honors) degree or equivalent in an engineering subject.
• Evidence of a background in automotive engineering, chemical engineering, control and systems engineering, electrical and electronic engineering, energy engineering, environmental engineering, industrial and manufacturing engineering, or mechanical engineering.
• A professional reference.
• An official academic transcript of university grades to date.
• A completed application form.

Fees and Scholarships

• UK students: ｣12,500 (2026/27).
• International students: ｣24,800 (2026/27).
• Aston University offers a range of scholarships to help lower tuition and living costs.

Career Prospects

The program is developed in partnership with industry experts, guaranteeing that graduates have directly applicable skills and knowledge for the autonomous vehicles sector. Most graduates pursue roles in automotive industries, working as control engineers for esteemed companies.

Facilities

Aston University is known for its cutting-edge facilities and laboratories equipped with the latest technology, providing students with the necessary resources to conduct experiments, simulations, or collaborative projects that push the boundaries of engineering.