Overview

The Master of Engineering in Electrical and Electronic Engineering at the University of Southampton Malaysia is a four-year programme structured as a 2+2 model—two years at the Malaysia campus followed by two years at the UK campus. This programme provides a comprehensive education in electrical and electronic engineering, covering areas such as power systems, embedded systems, machine learning, and robotics. Students benefit from state-of-the-art facilities and a curriculum designed to develop both technical expertise and professional competencies. The programme is accredited by the Institution of Engineering and Technology (IET) on behalf of the Engineering Council, ensuring international recognition and alignment with the standards required for professional engineers. Graduates are well-prepared for careers in various sectors, including energy, healthcare, communications, and manufacturing.

Subjects

Year 1

Core Modules

• Mathematics 
• Circuits
• Programming
• Digital Systems 
• Engineering Mathematics
• Fields, Forces and Materials
• Electronic Systems and Materials
• Introduction to Signals, Control and Communications
• First Year Lab

Year 2

Core Modules

• Design
• Advanced Programming 
• Signal Processing
• Applied Electromagnetism
• Control and Systems Modelling
• Communications

Optional Modules

• Electronic and Photonic Devices
• Electrical and Mechanical Materials
• Electronic and Computer Engineering
• Electrical Machines and Drives
• Power Circuits and Transmission

Year 3

Core Modules

• Part III Individual Project Phase 1
• Part III Individual Project Phase 2
• Optional Modules

Optional Modules

• Advanced Computer Architecture
• Advanced Partial Differential Equations
• Analogue and Mixed Signal Electronics
• Computational Biology
• Control System Design
• Digital Coding and Transmission
• Digital Control System Design
• Digital IC and Systems Design
• Embedded Networked Systems
• Foundations of Machine Learning
• Green Electronics
• Guidance, Navigation and Control
• High Voltage Engineering
• Integral Transform Methods
• Machine Learning Technologies
• Nanoelectronic Devices
• Operational Research
• Optimisation
• Photonics II
• Power Systems Engineering
• Power Systems Technology
• Real-Time Computing and Embedded Systems
• Robotic Systems
• Security of Cyber Physical Systems
• Signal and Image Processing
• Wireless and Optical Communications

Year 4

Core Modules

• Group Design Project
• Optional Modules

Optional modules:

• Advanced Wireless Communications Networks and Systems
• Analogue and Mixed Signal CMOS Design
• Applied Control Systems
• Bio/Micro/Nano Systems
• Biologically Inspired Robotics
• Cryptography
• Digital Systems Synthesis
• Embedded Processors
• Evolution of Complexity
• High Voltage Insulation Systems
• Image Processing
• Individual Research Project
• Machine Learning for Wireless Communications
• Medical Electrical and Electronic Technologies
• Microfabrication
• Microfluidics and Lab-on-a-Chip
• Microsensor Technologies
• Modelling with Differential Equations
• Nanofabrication and Microscopy
• Nonlinear Control of Aerospace Systems
• Numerical Methods
• Optical Fibres
• Power Distribution: Design, Operation and Protection
• Power Electronics for DC Transmission
• Power Generation: Technology and Impact on Society
• Power System Dynamics, Stability and Control
• Power Systems Operation and Economics
• Quantum Devices and Technology
• Secure Hardware and Embedded Devices
• Silicon Photonics
• VLSI Design Project
• VLSI Systems Design
• Wireless Networks
• Wireless Transceiver Design and Implementation

Requirements

Qualification	Requirements
A Level	ABC + mitigating factor, including A in Mathematics and B in Physics.
IB Diploma	ABC + mitigating factor, including A in Mathematics and B in Physics.
English Language	– IELTS 6.5 overall, minimum 6.0 in all components. – Grade C in GCSE English. – Grade A in IGCSE English as a Second Language.

Tuition Fee For International Students

Details	Tuition Fee
Total	USD 87,052