Electrical Engineering

Key information

Duration: 1 year full-time
Start date: October 2018
Campus: South Kensington
ECTS: 90 credits

Applications for 2018

Open to applications for 2018 entry
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This course will develop the planning, designing and operating skills needed by engineers working in the 21st century electricity industry, which is driven by clean and low carbon energy sources.

Worldwide electricity usage has been growing at an unprecedented rate with energy consumption predicted to grow by 56% over the next 25 years.

There is a growing need for more trained power engineers, and you will be equipped to pursue careers that involve design, modelling, analysis and control, as well as the business aspects of bulk electric power supply systems.

The course content draws on our last ten years of research expertise in the areas of power system control, economics and power electronics. 

From studying this degree you will gain:

  • an understanding of operating practice, design standard and regulatory policies in the electricity supply industry
  • knowledge of power transmission and distribution grid operation code
  • competency in the advanced modelling and analysis of a large system
  • competency in advanced signal and data analysis
  • operating knowledge of commonly adopted power system simulation tools (DigSilent and Matlab)

Study programme

You study taught modules, both core and optional, in the Autumn and Spring terms (October–April). Modules are taught through a blend of lectures, tutorials and practical laboratories. You will then take written exams on the studied modules between May and June.

You also complete a substantial individual research project, which will be carried out in an area of special interest.


Modules shown are for the current academic year, and are subject to change depending on your year of entry.


Core modules

You take all of the modules below.

HVDC Technology and Control (Autumn)

Introduces advanced concepts of power systems, power electronics and control theory necessary to fully understand the key aspects of the HVDC technology. Important topics such as, converter technology and control, operation of DC networks and AC-DC interactions will be covered. Lecturers: Dr Balarko Chaudhuri and Dr Adria Junyent-Ferre.


Optimisation (Autumn)

Introduces finite-dimensional optimisatiom theory and the basic algorithms for finding minima. Lecturer: Prof Alessandro Astolfi.

Power System Dynamics, Stability and Control (Spring)

Electric power network is by far the largest machine built on the Earth. The requirement for round the clock electricity supply can only be met through involved operation, control and co-ordination strategy and protective actions. This module will present mathematical model of important components in the system and the concept of controlling and protecting them under varying operating circumstances. Lecturer: Prof Bikash Pal.

Role and Value of Smart Grid Technologies (Autumn)

Introduces advanced technical concepts and guiding principles behind electric power supply systems. Lecturers: Prof Goran Strbac and Dr Simon Tindemans.

Optional modules

You choose four modules from below.

Adaptive Signal Processing and Machine Intelligence (Spring)

Aims to provide in-depth knowledge of the theoretical basis and applicability of modern methods for spectral estimation, algorithms which underlie adaptive signal processing, and machine intelligence techniques such as dimensionality reduction and neural and deep networks. Lecturer: Prof Danilo Mandic.

Design of Linear Multivariable Control Systems (Spring)

Aimed at providing the principles for designing linear multivariable control systems to meet a range of practical applications. Lecturer: Dr Imad Jaimoukha.

Digital Signal Processing and Digital Filters (Autumn)

Aims to give a thorough grounding in the design of digital filters and in multirate signal processing techniques. Lecturer: Mr Mike Brookes.

Estimation and Fault Detection (Spring)

Highlights the importance of estimating the state of a dynamic system from measurements (deterministic or noisy), and also to detect the occurrence of faults and abrupt system changes, and to equip them with some of the principal techniques available for this purpose. Lecturer: Prof Thomas Parisini.

Power system economics (Autumn)

Gives an understanding of the economic principles underlying the operation and planning of the electricity systems including concepts of electricity markets and competition in electricity generation and supply, and the opening of the transmission and distribution systems to third party access. Lecturer: Prof Goran Strbac.

Probability and Stochastic Processes (Autumn)

Provides analytical tools for studying random phenomena in engineering systems. Lecturer: Dr Cong Ling.

Stability and Control of Non-linear Systems (Autumn)

Introduces the concepts and theoretical techniques needed to study the stability and stabilization of nonlinear control systems, with particular attention being paid to Lyapunov-based analysis and design of control feedback laws. Lecturer: Dr David Angeli.

Sustainable Electrical Systems (Spring)

Reviews the motivating factors and aspirations for changing electricity systems to a more sustainable form. From this base, the challenges posed for planning and operating a system with a changed generation mix are described and analysed. To support this, the features of the key renewable and low carbon energy technologies are introduced. Lecturers: Dr Adria Junyent-Ferre and Prof Goran Strbac.

Systems Identification (Autumn)

Introduces methods for constructing stochastic models of dynamic systems from measurements of input and output signals, and basic techniques for prediction of unknown quantities basing on available sensor data. Lecturer: Prof Thomas Parisini.

Traffic Theory and Queueing Systems (Spring)

Provides the opportunity to develop a conceptual framework for modelling and analysing different communication networks (e.g. circuit-switched and packet-switched networks). The module will show, firstly, how to set up such models and, secondly, how to use them in the performance (e.g. QoS) analysis of communication systems. Lecturer: Dr Javier Barria.

Wavelets and Applications (Autumn)

Finding useful information in huge amount of data is as difficult as finding a needle in a haystack. The key insight of wavelet theory is that by finding alternative representations of signals, it is possible to extract their essential information in a fast and effective way. Lecturer: Prof Pier-Luigi Dragotti.

Research project

You will also carry out an individual research project three months part-time (January–March) and four months full-time (June–September).

The project gives you the opportunity to carry out research that deepens your knowledge of an area in which you have a special interest.

It also develops your report writing, presentation and time management skills.

You will have an academic supervisor who will mentor you, and the project is assessed by a written report and poster presentation in September.

Teaching and assessment

Teaching methods

  • Hardware laboratory
  • Individual projects
  • Lectures
  • Problem solving classes
  • Software laboratory
  • Tutorial sessions

Assessment methods

  • Coursework software or hardware deliverable
  • Oral and poster presentations
  • Reports
  • Written examinations

Tuition fees and funding

The level of tuition fees you pay is based on your fee status, which we assess based on UK government legislation.

For more information on the funding opportunities that are available, please visit our Fees and Funding website.

Tuition fees

Tuition fees (Home and EU students)

2018 entry

Fees are charged by year of entry to the College and not year of study.

Except where otherwise indicated, the fees for students on courses lasting more than one year will increase annually by an amount linked to inflation, including for part-time students on modular programmes. The measure of inflation used will be the Retail Price Index (RPI) value in the April of the calendar year in which the academic session starts e.g. the RPI value in April 2019 will apply to fees for the academic year 2019–2020. 

Tuition fees (Overseas and Islands students)

2018 entry

Fees are charged by year of entry to the College and not year of study.

Except where otherwise indicated, the fees for students on courses lasting more than one year will increase annually by an amount linked to inflation, including for part-time students on modular programmes. The measure of inflation used will be the Retail Price Index (RPI) value in the April of the calendar year in which the academic session starts e.g. the RPI value in April 2019 will apply to fees for the academic year 2019–2020. 

Postgraduate Master's loan

If you are a Home or EU student who meets certain criteria, you may be able to apply for a Postgraduate Master’s Loan of up to £10,280 from the UK government. The loan is not means-tested, and you can choose whether to put it towards your tuition fees or living costs.


We offer a range of scholarships for postgraduate students to support you through your studies. Try our scholarships search tool to see what you might be eligible for.

There are a number of external organisations also offer awards for Imperial students, find out more about non-Imperial scholarships.

Accommodation and living costs

Living costs, including accommodation, are not included in your tuition fees.

You can compare costs across our different accommodation options on our Accommodation website.

A rough guide to what you might expect to spend to live in reasonable comfort in London is available on our Fees and Funding website.


We welcome students from all over the world and consider all applicants on an individual basis.

For advice on the requirements for the qualifications listed here please contact the Department (details at the bottom of this page).

We also accept a wide range of international qualifications. If the requirements for your qualifications are not listed here, please see our academic requirements by country page for guidance on which qualifications we accept.


Minimum academic requirement

Our minimum requirement is a first class UK Honour's degree in electrical engineering or a related subject.

The overall degree grade must be at least 75% overall.

International qualifications

The academic requirement above is for applicants who hold or who are working towards a UK qualification. 

We also accept a wide variety of international qualifications. For guidance see our Country Index though please note that the standards listed here are the minimum for entry to the College.

If you have any questions about admissions and the standard required for the qualification you hold or are currently studying then please contact the relevant admissions team.

English language requirement (all applicants)

All candidates must demonstrate a minimum level of English language proficiency for admission to the College.

For admission to this course, you must achieve the higher College requirement in the appropriate English language qualification. For details of the minimum grades required to achieve this requirement, please see the English language requirements for postgraduate applicants.

How to apply

All applicants must apply online.

You can usually apply for up to two courses, although your second choice will only be considered if your first-choice application is unsuccessful.

Most courses don't have a formal closing date, but popular courses close when they are full, so you should apply early to avoid disappointment. There may also be funding deadlines that apply to you.

You will need to upload documents with your applications, which may include transcripts and degree certificates.

Offer holders will need to pay a deposit to secure your place. This will be deducted from the balance of your tuition fees.

For full details on the online application process, or to start your application, please visit the How to Apply section of our website.

ATAS certificate

An ATAS certificate is not required for overseas students applying for this course.

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