|Study location||United Kingdom, Sheffield|
|Type||Bachelor courses, full-time|
|Nominal duration||4 years|
|Tuition fee||To be confirmed|
High school / secondary education (or higher)
good results in Mathematics
The entry qualification documents are accepted in the following languages: English.
Often you can get a suitable transcript from your school. If this is not the case, you will need official translations along with verified copies of the original.
IELTS: 6 (with a minimum of 5.5 in each band)
At least 1 reference(s) should be provided.
A motivation letter must be added to your application.
Learn how to design, analyse and test transforming robots, autonomous vehicles and other complex electro-mechanical systems. We’ll also show you how to control robotic systems using modern microprocessor technology.
You can also explore advanced concepts including manufacturing systems, noise and vibration control, spacecraft systems and robot technology.
In the first year, you’ll take the Global Engineering Challenge. This involves working with other engineering students on a one-week project to tackle a real-world problem. The challenge is designed to develop your skills and enhance your career prospects.
In the final year, you’ll complete an extended research project of your own, supervised by a member of staff.
Computing and system design
Introduction to Electric and Electronic Circuits
Laboratory and Professional Skills
Modelling, Analysis and Control
Systems Engineering Mathematics
Systems Modelling and Simulation
Global Engineering Challenge Week
Computer Systems and Applications
Control Systems Analysis and Design
Mathematics & Data Modelling
Finance and Law for Engineers
Systems Laboratory and Design
Engineering – You’re Hired
Digital Signal Processing
Dynamics of Structures and Machines
Project Management and HRM for Engineers
Real-Time Embedded Systems
State-Space Control Design
Electrical Energy Management and Conversion
Hardware-in-the-Loop & Rapid Control Prototyping
Mechanics of Deformable Solids
Space Systems Engineering
Vibrations and Acoustics
Mobile Robotics and Autonomous Vehicles
Multi-Sensor Data Fusion
Data Modelling and Machine Intelligence
Flight Dynamics and Control
Hybrid Control Systems
Optimisation and Search
Structural Vibration: Analysis and Practice
Our graduates work in many different sectors, such as manufacturing, aerospace, robotics, power generation and finance.