Providing comprehensive training in essential elements of modern communication and information engineering, this degree delivers information-theoretic underpinnings alongside physical-layer aspects of optical and radio transmission and signal processing methods. You’ll also explore developments in radio network architectures and deployment and have opportunities to study digital multimedia storage and communications technologies, data analytics and data mining, in terms of algorithms and goals in real-world problems.
Our graduates will be well equipped for employment opportunities in modern information and communication engineering, which is currently undergoing a revolution.
*Before you apply, we ask that you look at the problems presented here for the prescribed mathematical concepts and check whether you can do them. All applicants will be required to take an online maths test as part of the application process.
- Advanced Wireless Systems and Networks
- Information Theory and Coding
- Antenna, Propagation and Wireless Communications Theory
- Optical Communication Systems
- Signal & Image Processing
- Individual Project
Previously, a selection of the following optional modules have been offered:
* The modules mentioned above may be subject to change. Please read our terms and conditions for more detailed information.
The degree comprises eight taught modules and a project. The individual research project is an in-depth experimental, theoretical or computational investigation of a topic chosen by you in conjunction with your academic supervisor. Recent project titles include: Network coding for underwater communications; Nanoscale communication networks; Design of radio devices using metamaterials.
The MSc degree (totalling 180 credits) comprises:
i) Eight taught modules (15 credits each)
ii) A research project (60 credits)
The typical workload for a 15-credit module is as follows:
i) 20-30 hours of lectures/seminars
ii) 5 hours of laboratory work
iii) 45 hours of private/directed study
iv) 70 hours of assessed work
The research project is valued at 60 credits and students should plan to execute around 600 hours of work towards the completion of the project dissertation.
Class sizes for lectures, practical laboratory sessions and seminars vary depending on the number of students taking the module.
A combination of coursework and written examinations.
Our graduates have gone on to work in in sectors including:
- Information and communication
- Professional, scientific and technical activities
They have progressed into roles such as:
- Graduate Electronic Engineer
- Electrical Engineer
- Technology and Innovation Engineer for Sensors
- Project Manager
To Visit Warwick...
There are a number of different ways to visit the University of Warwick throughout the year. We host bespoke PG visits, where you can talk directly with your chosen department and explore our campus through a personalised tour. Some departments also host their own events and open days, where you can learn more about your department or course of study. To find out more about all of these opportunities, visit our Postgraduate Visits page.
Full-time: 1 year
(September 2019 - September 2020)
2:ii undergraduate degree (or equivalent) in a relevant branch of engineering or science
Important note: In order for you to cope easily with the course we are looking for competence in the majority of the mathematics taught in the first and second year of an undergraduate Engineering or Physics course
English Language Requirements
IELTS overall score of 6.5, minimum component scores not below 6.0
Department of Study
Location of Study
University of Warwick
See Student Finance
Offer holders qualify to apply for a School of Engineering Taught Master’s Scholarship. For 2018 entry, 9 scholarships were available for £5k-£10k each.
Additional Course Costs
No additional course costs.
Find out more about fees and funding on the University website.