Students will learn about historical arms control challenges, such as negotiation of the Comprehensive Test Ban Treaty, along with contemporary arms control issues as they relate to international security, to include the Iran Nuclear Deal, U.S.-Russia arms control, and disarmament verification. Along with subject matter expertise, students will develop transferable analytic and research skills in a dynamic and rigorous intellectual environment.
Students will have the opportunity to meet arms control practitioners, negotiators, and inspectors. The course is particularly unique in combining history and theory with practical issues, skills development, and contemporary weapon of mass destruction policy.
The MA in Arms Control & International Security is a joint course with the Departments of War Studies and Defence Studies at King’s College London. The goal of the course is to enhance knowledge of a broad range of subjects relevant to arms control and international security. The course is available to both full and part-time students, and is available as an MA, Diploma, or Certificate. Required modules include: (1) History and Politics of Arms Control, (2) Verification Concepts and Technologies, and (3) Arms Control Case Studies. Modules will be conducted in intensive week-long sessions so as to accommodate professional students. Each module will be highly interactive with a combination of lectures, seminars, and group discussion, and include formative assessment. Student performance will be assessed in an essay for each module and MA students will be required to write an individual research dissertation.
Ideally, this course will train the next generation of arms control practitioners and experts by building their expertise in the fundamentals and history of arms control, while also exposing them to practical issues and challenges, such as verification.
Per 20-credit required module:
For your lectures, seminars and feedback, you will have week-long intensive session consisting of 10 hours of lectures and 10 hours of seminars. In addition you will have 180 hours of self-study. Typically, one credit equates to 10 hours of work.
Per 20-credit and some required optional modules:
For your lectures, seminars and feedback, you will typically have two hours per week over two 10-week terms. This can be split into one lecture + one seminar or combinations thereof. You will also have 180 hours of self-study.
Per 40-credit optional module:
For your lectures, seminars and feedback, you will typically have two hours per week over two 10-week terms per 40-credit optional module. This can be split into one lecture + one seminar or combinations thereof, as well as 360 hours of self-study.
You will have 12 hours of training workshops/supervision to complement the 588 hours of self-study.
Assessment methods will depend on the modules selected. The primary method of assessment for this course is:
Although this is a new course, other King’s MA students in similar fields have gone on to work at top global think tanks, in government, or to pursue PhDs in a relevant field.
Renewable energy and cutting carbon emissions now top the global environmental agenda. This programme addresses the fundamentals of renewable energy and shows how solar, wind and other such energy sources can be efficiently integrated into practical power systems.
You’ll study core power engineering topics such as power electronic converters, machines and control alongside modules specific to renewable energy sources, on topics like power system modelling, analysis and power converters.
At the same time, you’ll study a unique set of modules on the efficient generation of electricity from solar and wind power, as well as integrating renewable generators into micro-grids, with stability analysis and active power management. Power electronics design is covered in depth, including conventional and emerging converter topologies and advances in semiconductor power devices.
You’ll be prepared to meet the renewable energy challenges of the 21st century in a wide range of careers.
School of Electronic and Electrical Engineering
Our School is an exciting and stimulating environment where you’ll learn from leading researchers in specialist facilities. These include our Keysight Technologies wireless communications lab, as well as labs for embedded systems, power electronics and drives.
Depending on your choice of research project, you may also have access to our labs in ultrasound and bioelectronics or our Terahertz photonics lab, class 100 semiconductor cleanroom, traffic generators and analysers, FPGA development tools, sensor network test beds. We have facilities for electron-beam lithography and ceramic circuit fabrication – and a III-V semiconductor molecular beam epitaxy facility.
Core modules that run throughout the year will allow you to take part in different lab-based projects and explore different forms of renewable energy as well as how they can be integrated into electricity systems. You’ll also consider how renewable source-powered generations can be integrated into the grid and analysis and design of control systems.
To build your understanding of the global electronics industry, you’ll also complete a dissertation. This could take the form of a business, manufacturing or outsourcing plan, a proposal for research funding or an essay on a specific aspect of the industry.
You’ll complete your studies with three optional modules, selecting one from each of three pairs that cover different topics. If you have no experience of c-programming you’ll take a module that develops those skills, or another focusing on software development. You’ll choose between Power Electronics and Drives and Electric Drives and take another module from Energy Management and Conservation and Energy in Buildings.
Over the summer months you’ll also work on your research project. This gives you the chance to work as an integral part of one of our active research groups, focusing on a specialist topic in power electronics, power engineering and control and selecting the appropriate research methods.
Want to find out more about your modules?
Take a look at the Electrical Engineering and Renewable Energy Systems module descriptions for more detail on what you will study.
Our groundbreaking research feeds directly into teaching, and you’ll have regular contact with staff who are at the forefront of their disciplines. You’ll have regular contact with them through lectures, seminars, tutorials, small group work and project meetings. Independent study is also important to the programme, as you develop your problem-solving and research skills as well as your subject knowledge.
You’ll be assessed using a range of techniques including case studies, technical reports, presentations, in-class tests, assignments and exams. Optional modules may also use alternative assessment methods.
The research project is one of the most satisfying elements of this course. It allows you to apply what you’ve learned to a piece of research focusing on a real-world problem, and it can be used to explore and develop your specific interests.
Recent projects by students on this programme have included:
Renewable energy and efficient power conversion systems are of immense importance worldwide and graduates of this course can expect to find jobs in a wide variety of industries including the electronics, automotive, transport, construction, industrial automation, power utility, energy, oil and environmental sectors.
You’ll be well-placed to develop practical solutions to the problem of integrating renewable energy systems into established electricity distribution networks. You should be able to contribute to strategic planning, systems implementation and operation of sustainable power generation systems.
This programme is also excellent preparation for PhD study.