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Masters Degrees (Wireless Communications)

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Application period/deadline. November 1, 2017 - January 24, 2018. Cutting-edge knowledge in wireless communications both at physical and network layers. Read more

Application period/deadline: November 1, 2017 - January 24, 2018

• Cutting-edge knowledge in wireless communications both at physical and network layers

• Capability to design and implement wireless solutions, e.g., for future 5G networks, Internet-of-Things (IoT) devices and smart energy-efficient wireless sensor applications

• Relevant skills of the latest radio engineering methods, tools, and technologies, and ability to design RF electronics for smart phones and base stations of mobile systems

The International Master’s Degree Programme in Wireless Communications Engineering (WCE) is a two-year programme concentrating on wireless communications network technology. The programme will give you relevant skills and core knowledge of the latest methods, tools and technologies combined with time-tested issues such as:

• Antennas

• Advanced wireless communication systems

• Communication networks

• Computer engineering

• Electronics

• Information theory

• Stochastical and digital signal processing

• Radio channels

• Radio engineering

The two-year programme has two specialisation options:

• Radio Access and Networks

• RF Engineering

Radio Access and Networks concentrates on designing and applying radio access technologies both at physical layer and at network layer for 5G, IoT, and future mobile system generations.

RF Engineering focuses on essential radio system parts and gives the knowledge to design integrated RF and DSP circuits for mobile handsets, base stations, future 5G devices, IoT applications, and smart & energy efficient sensors.

Optional module makes it possible to widen your expertise into:

• Machine vision

• Mobile and social computing

• Signal processors, and

• Video and biomedical signal processing.

The education is organized by the Centre for Wireless Communications which consists of 150 academics from over 20 countries. CWC performs world-class research for the future of 5G and IoT applications, which will give you the possibility to move forward already during your studies. CWC provides a number of jobs as a trainee or a master’s thesis student, with the possibility to continue as a doctoral student, and even as a post-doctoral researcher.

The skills gained in the programme offer you a solid academic training and essential knowledge on the design of wireless communications networks at the system level. After graduation you are capable of designing, implementing and employing 5G and IoT applications and developing future wireless communications technologies.

Possible titles include:

• Chief engineer

• Design engineer

• Development engineer

• Maintenance engineer

• Patent engineer

• Program manager

• Project manager

• Radio network designer

• Research engineer

• RF engineer

• Sales engineer

• System engineer

• Test engineer, and

• University teacher

Students applying for the programme must possess an applicable B.Sc. degree in one of the following fields of study: communications engineering, electronics & electrical engineering, or computer engineering.

For all enquiries, please refer to our enquiry form: http://www.oulu.fi/university/admissions-contact



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This MSc covers a range of advanced topics drawn from wireless communications and communications-related signal processing, including associated enabling technologies. Read more
This MSc covers a range of advanced topics drawn from wireless communications and communications-related signal processing, including associated enabling technologies. It provides an excellent opportunity to develop the skills required for careers in some of the most dynamic fields in wireless communications.

This programme builds on the internationally recognised research strengths of the Communications Systems and Networks group within the Smart Internet Lab. This group conducts pioneering research in a number of key fundamental and experimental work areas, including spatial channel measurements and predictions, information theory, advanced wireless access (cellular and WLAN) and RF technologies. The group has well-equipped laboratories with state-of-the-art test and measurement equipment and first-class computational facilities.

The MSc provides in-depth training in design, analysis and management skills relevant to the theory and practice of the wireless communications industry. This degree is accredited by the Institute of Engineering and Technology (IET) until 2018, and is one of only a handful of accredited programmes in this field in the UK.

Programme structure

Your course will cover the following core subjects:
Semester One (60 credits)
-Coding theory
-Radio frequency engineering
-Communication systems
-Mobile communications
-Networking protocol principles
-Digital filters and spectral analysis

Semester Two (60 credits)
-Advanced mobile radio techniques
-Antennas and electromagnetic compatibility
-Broadband wireless communications
-Digital signal processing systems
-Engineering research skills
-Research project (60 credits)

You will carry out a substantial research project, starting during Semester Two and completing during the summer. This may be based at the University or with industrial partners.

Careers

This is a challenging one-year taught Master’s degree, covering all aspects of current and future wireless communication systems and associated signal processing technologies. It will prepare you for a diverse range of exciting careers - not only in the communications field, but also in other areas such as management consultancy, project management, finance and government agencies.

Our graduates have gone on to have rewarding careers in some of the leading multinational communications companies, such as Huawei, China Telecom, Toshiba, China Mobile and Intel. Some graduates follow a more research-oriented career path, with a number of students going on to study for PhDs at leading universities.

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The Wireless Communications and Networking programme is designed to address the rapidly increasing demand for qualified engineers and managers with well equipped knowledge in wireless and mobile communication systems and networks. Read more
The Wireless Communications and Networking programme is designed to address the rapidly increasing demand for qualified engineers and managers with well equipped knowledge in wireless and mobile communication systems and networks. This one-year programme offers six-month taught modules covering a wide range of subjects from fundamental information and communications technology (ICT) to contemporary developments in wireless and mobile industry. It also includes a six-month individual project with opportunities of participating in the project provided by industry. This programme is suitable for those who want to develop the knowledge and skills needed for a successful career in these specific and related areas.

The delivery of the programme is fully supported by the dedicated facilities in the Electronic Engineering Department and across the University, such as teaching and computing laboratories, and the involvement of experienced member of staff. Our research facilities in the Adaptive Communications and Networks Research Group and Wireless Network Laboratory are also available for use on MSc projects. To ensure its continuing relevance the programme is monitored by an industrial steering committee which includes representatives from major employers.

About the MSc in Wireless Communications and Networking:
-Prepares students for an intellectually challenging career as a qualified engineer.
-Provides students with a thorough grounding in the principles and the requisite specialist knowledge and skills to develop, manage and adapt current systems.
-An industrial advisory group (Steering Committee) reviews the programme on a continual basis.
-Guest lecturers presented by acknowledged experts from industry and academic institutions.
-An active alumni group on LinkedIn.
-Free student membership of the IET.

Modules

This MSc integrates a taught component of nine modules plus a major project and a project preparation module, constituting in total 180 credits. Taught modules and examinations/assessments are completed during six months, October to March. After successful completion students may then progress to the six month individual research project during April to October. The project is either undertaken in an industrial laboratory or at the University, often with guidance and direction from industrial partners. The module titles are:
-Mobile Data Networks (EE4016)
-Realtime Communication Networks (EE4017)
-Information Theory and Coding and Traffic Theory (EE401A)
-Digital Transmission (EE401B)
-Broadband Wireless Networks (EE4027)
-Pervasive and Mobile communication networks (EE4028)
-Radio Systems and Personal Communications Networks (EE402B)
-Internetworking (EE403B)
-Introductory Programming (EE404B)

Dissertation Stage
-MSc Project (EE4006)
-Project Preperation (EE4019)

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Wireless communications is a ubiquitous technology which will be critical to establishing the Internet of Things. On this course you will combine taught material central to your research as well as advanced knowledge obtained from your research project. Read more
Wireless communications is a ubiquitous technology which will be critical to establishing the Internet of Things. On this course you will combine taught material central to your research as well as advanced knowledge obtained from your research project. The Aston Adaptive Communications Research Group has expertise in LTE, machine to machine communication, multimedia transmission and ad-hoc networking. The course will enhance your employability throughout the wireless communications industry.

This programme trains aspiring academic and industrial research scientists. The programme consists of a training aspect of taught components (equivalent to 3 modules approximately during the first 3 months) and a significant interdisciplinary research project.

In additional to the research skills module (ISI4001), students will study approximately 20 credits of material relevant to their research topic and experience. This material will be determined through a training needs analysis undertaken in collaboration with their project supervisor.

Exemption from these modules may be arranged through APL or APEL, provided this is done prior to enrolment. In Electronic Engineering we can supervise projects in the following areas. In addition, applicants may also suggest their own project.

Personal Development

Students will have the opportunity to carry out a research project in collaboration with industry and through this learn about the application context of technology and the interaction between research and business.

Facilities & Equipment

Students will get access to appropriate computational and experimental facilities. Aston University offers Wi-Fi connection, modern lecture/tutorial rooms, computer labs, lounge area, good learning resources and publications are available in the library and many electronically.

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This popular, intensive programme, taught in our worldleading Southampton Wireless research group, covers all the technologies that contribute to mobile speech and data communications. Read more

Course Summary

This popular, intensive programme, taught in our worldleading Southampton Wireless research group, covers all the technologies that contribute to mobile speech and data communications. Our graduates have found employment in the industrial and academic sectors, with many undertaking PhD research.

Modules

Semester one: Research Skills and Practices; Digital Coding and Transmission; Signal Processing; Radio Communications Engineering

Semester two: Wireless and Mobile Networks; Personal Multimedia Communications; Advanced Wireless Communication Networks and Systems; Integrated RF Transceiver Design; Advanced Systems and Signal Processing; Cryptography

Visit our website for further information...



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Digital signal processing (DSP) is at the core of the communications revolution. Research is constantly being carried out to develop new DSP algorithms, allowing mobile broadband services, ‘Internet of Things’ applications and other technologies to be delivered to a growing number of users. Read more

Digital signal processing (DSP) is at the core of the communications revolution. Research is constantly being carried out to develop new DSP algorithms, allowing mobile broadband services, ‘Internet of Things’ applications and other technologies to be delivered to a growing number of users.

This programme will give you a thorough understanding of different aspects of DSP and as it relates to the communications landscape, as well as specialist knowledge from your choice of optional modules.

Our DSP lab will give you hands-on experience using the DSP technology that can be found in computers, cellular phones, GPS and other technologies, and you’ll learn from expert researchers at the forefront of their fields.

You’ll also benefit from specialist industrial lectures, allowing you to relate the theoretical and design aspects of communications and signal processing to practical problems and real-world constraints.

School Facilities

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, ultrasound and bioelectronics.

There’s also a 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. The Faculty is also home to the £4.3 million EPSRC National Facility for Innovative Robotic Systems, set to make us a world leader in robot design and construction.

Course content

Throughout the year you’ll study a set of core modules that give you an in-depth understanding of DSP, wireless communications, different optical communications networks and the complex issues around network security. If you don’t have any experience of c-programming you’ll also take a module that develops these skills; alternatively, you can choose between this module and another on software development.

You’ll also select optional modules that are tailored to your own interests or career plans – you could focus on embedded microprocessor systems, high-speed internet architecture or other topics. 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.

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 computer science and selecting the appropriate research methods.

Want to find out more about your modules?

Take a look at the Communications and Signal Processing module descriptions for more detail on what you will study.

Course structure

Compulsory modules

  • Industry Dissertation 15 credits
  • Wireless Communications Systems Design 15 credits
  • Digital Signal Processing for Communications 15 credits
  • Digital Wireless Communications Principles 15 credits
  • Optical Communications Networks 15 credits
  • Data Communications and Network Security 15 credits
  • Main Project 45 credits

Optional modules

  • Cellular Mobile Communication Systems 15 credits
  • High Speed Internet Architecture 15 credits
  • FPGA Design for System-on-Chip 15 credits
  • Embedded Microprocessor System Design 15 credits
  • Programming 15 credits
  • Software Development 15 credits

For more information on typical modules, read Communications and Signal Processing MSc(Eng) in the course catalogue

Learning and teaching

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.

Assessment

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.

Projects

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 on the MSc in Communications and Signal Processing include:

  • Powerline communications for smart grid
  • Quantum key distribution over passive optical networks
  • Physical layer security using artificial noise
  • An energy-saving robot mobility diversity algorithm for wireless communications
  • Analysis and processing of physiological data from a smart watch to monitor health
  • Evaluation of wireless sensor networks for civil engineering applications
  • Cooperative wireless communications over fading channels
  • Carrier frequency offset compensation in OFDM for IEEE 802.11
  • Underlay spectrum access strategy in cognitive radio
  • Spectrum sensing for cognitive radio

Career opportunities

On completing this course, you will have obtained the skills that will lead to employment in any area of the communications/signal processing industry including optical networking, DSP design and implementation, cellular mobile, RF planning, broadband systems and general communications research and development.

Graduates from our School have gone on to work for organisations such as the National Grid, Ericsson Telecommunications, Cisco Systems, AECOM, Deep Sea Electronics, Huawei, Intel Corp., the Technology and Strategy Board and many more.

This course is also an excellent base from which to pursue a PhD and possibly an academic career.



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The Advanced Communications Engineering (Wireless Systems and Networks) MSc is one of Kent’s newest programmes. It targets the needs of researchers and industry in a fast-paced and technical communications sector which continues to bring many of the advances that make ultra-fast wireless communications possible. Read more
The Advanced Communications Engineering (Wireless Systems and Networks) MSc is one of Kent’s newest programmes. It targets the needs of researchers and industry in a fast-paced and technical communications sector which continues to bring many of the advances that make ultra-fast wireless communications possible.

*This course will be taught at the Canterbury campus*

Visit the website: https://www.kent.ac.uk/courses/postgraduate/261/wireless-communications-signal-processing

Course detail

The programme reflects the latest developments in wireless communications, with particular emphasis on digital signal processing using embedded systems. It has been designed to produce high-calibre engineers that can specialise in and understand the complex system designs used in the wireless communications field.

Format and assessment

The programme is delivered by internationally leading researchers in our Communications and Instrumentation, Control & Embedded Systems groups. They provide first-hand experience of cutting-edge research into next-generation wireless communications, converged access networks and embedded systems.

The following modules are indicative of those offered on this programme. This list is based on the current curriculum and may change year to year in response to new curriculum developments and innovation:

- Communication Networks (15 credits)
- Signal & Communication Theory II (15 credits)
- Embedded Real-Time Operating Systems (15 credits)
- Research Methods & Project Design (30 credits)
- Digital Signal Processing (DSP) (15 credits)
- Wireless/Mobile Communications (15 credits)
- Computer & Reconfigurable Architectures (15 credits)
- MSc Project (60 credits)

The project module is examined by a presentation and dissertation. The Research Methods and Project Design module is examined by several components of continuous assessment. The other modules are assessed by examinations and smaller components of continuous assessment. MSc students must gain credit from all the modules. For the PDip, you must gain at least 120 credits in total, and pass certain modules to meet the learning outcomes of the PDip programme.

Careers

We have developed the programme with a number of industrial organisations, which means that successful students will be in a strong position to build a long-term career in this important discipline.

Kent has an excellent record for postgraduate employment: over 94% of our postgraduate students who graduated in 2013 found a job or further study opportunity within six months.

How to apply: https://www.kent.ac.uk/courses/postgraduate/apply/

Why study at The University of Kent?

- Shortlisted for University of the Year 2015
- Kent has been ranked fifth out of 120 UK universities in a mock Teaching Excellence Framework (TEF) exercise modelled by Times Higher Education (THE).
- In the Research Excellence Framework (REF) 2014, Kent was ranked 17th* for research output and research intensity, in the Times Higher Education, outperforming 11 of the 24 Russell Group universities
- Over 96% of our postgraduate students who graduated in 2014 found a job or further study opportunity within six months.
Find out more: https://www.kent.ac.uk/courses/postgraduate/why/

Postgraduate scholarships and funding

We have a scholarship fund of over £9 million to support our taught and research students with their tuition fees and living costs. Find out more: https://www.kent.ac.uk/scholarships/postgraduate/

English language learning

If you need to improve your English before and during your postgraduate studies, Kent offers a range of modules and programmes in English for Academic Purposes (EAP). Find out more here: https://www.kent.ac.uk/courses/postgraduate/international/english.html

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The evolution of wireless communication systems and networks in recent years has been accelerating at an extraordinary pace and become an essential part of modern lifestyle requirements. Read more

About the course

The evolution of wireless communication systems and networks in recent years has been accelerating at an extraordinary pace and become an essential part of modern lifestyle requirements.

The effects of this trend has seen a growing overlap between the network and communication industries, from component fabrication to system integration, and the development of integrated systems that transmit and process all types of data and information.

This distinctive course, developed with the support of industry, aims to develop a detailed technical knowledge of current practice in wireless systems and networks. You will study the fundamentals of wireless communication systems and the latest innovations in this field.

You will study the fundamentals of wireless communication systems and the latest industry innovations and needs. The MSc programme incorporates theory and practice and covers all aspects of a modern communication system ranging from RF components, digital signal processing, network technologies and wireless security and examines new wireless standards.

This course is accredited by the Institution of Engineering and Technology (IET).

Aims

The sharp increase in the use of smartphones, machine to machine communication systems (M2m), sensor netowrks, digital broadcasting networks and smart grid systems have brought tremendous technological growth in this field.

It has become a global phenomenon that presently outstrips the ability of commercial organisations to recruit personnel equipped with the necessary blend of technical and managerial skills who can initiate and manage the introduction of the new emerging technologies in networks and wireless systems.

By studying Wireless Communications Systems at Brunel, you will be equipped with the advanced technical and professional skills you need for a successful career either in industry or leading edge research in wireless communication systems.

Course Content

Typical Modules:

Advanced Digital Communications
Network Design and Management
DSP for Communications
Wireless Network Technologies
Communications Network Security
Research Methods
Radio and Optical Communication Systems
Project Management
Project & Dissertation

Teaching

The course blends lectures, workshops, seminars, self-study, and individual and group project work. You’ll develop communication and teamwork skills valued by industry through carefully designed lab exercises, group assignments, and your dissertation project.

In lectures, key concepts and ideas are introduced, definitions are stated, techniques are explained, and immediate student queries discussed.

Seminars provide the students with the opportunity to discuss at greater length issues arising from lectures.

Workshops sessions are used to foster practical engagement with the taught material.

The dissertation project plays a more significant role in supporting literature review in a technically complex area and to plan, execute and evaluate a significant investigation into a current problem area related to wireless communication systems.

Assessment

Taught modules are assessed by final examinations or by a mix of examination and laboratory work. Project management is assessed by course work. Generally, students start working on their dissertations in January and submit by the end of September.

Special Features

The course is taught by academics who are experts in their fields and have strong collaborative links with industry and other international research organisations. Some well-known textbooks in this area are authored by members of the course team.

The course is fully supported with computing and modern, well-equipped RF laboratories. As a student you will enjoy working on the latest and advanced equipment.

Electronic and Computer Engineering at Brunel supports a wide range of research groups, each with a complement of academics and research staff and students:

- Media Communications
- Wireless Networks and Communications
- Power Systems
- Electronic Systems
- Sensors and Instrumentation.

Our portfolio of research contracts totals £7.5 million, and we’ve strong links with industry.

Prizes
Rohde and Schwartz best in RF Prize
Criteria for award: Best overall PG student on MSc Wireless Communications Systems with a relevant RF dissertation
Composition of prize: RF books and Certificate

Women in Engineering and Computing Programme

Brunel’s Women in Engineering and Computing mentoring scheme provides our female students with invaluable help and support from their industry mentors.

Accreditation

The MSc in Wireless Communications Systems is fully accredited by the Institution of Engineering and Technology (IET).

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There is a great need for suitably qualified engineers to fulfill the existing and future needs of the global smart economy. This course addresses that need by providing an exciting range of topical modules and a state-of-the-art engineering facility. Read more

Overview

There is a great need for suitably qualified engineers to fulfill the existing and future needs of the global smart economy. This course addresses that need by providing an exciting range of topical modules and a state-of-the-art engineering facility. The programme also offers the student a chance to develop their research skills in a full-time three month project.

In the world of increasingly connected things and people, electronic engineers develop the technology that is the interface between the digital and the physical worlds. With the increasing pervasiveness of electronics enhanced things, and the need for ever-present wire-free communication, there is an increasing demand for engineers with experience in wireless communications systems and embedded computing systems.

The internet of things will lead to billions of wirelessly connected devices that will fundamentally change our approach to wireless systems and networks. To address this, there is a need for well qualified graduates who can design solutions based on solid understanding of the wireless environment and electronic hardware.
Similarly, as we continue to embed intelligence in everything from home appliances to cars and wearable sensors to robotic systems, there is growing need for engineers who understand the unique problems of real time application deadlines, resource constrained computing environments, and embedded intelligence.
The ME Electronic Engineering has been designed to provide two specialized module sets that introduce advanced techniques and topical content: one focusing on wireless communications and the other on embedded systems. These are supported by core modules which provide techniques that are widely applied and reusable across a range of engineering applications.
The programme has been designed to have a large project element to allow students to demonstrate their expertise in their chosen specialism. In addition students will be invited to present their work in an open day to invited local industry leaders. A small number of placements may be available for students graduating in 2016 (to be confirmed).

Course Structure

Note: As module availability may change year on year, applicants should check the Department web site for the most up to date list of modules available for 2016-2017, see web address below:

https://www.maynoothuniversity.ie/electronic-engineering/current-students

Career Options

Graduates will have enhanced qualifications and up to date knowledge of modern cutting-edge techniques and technology suitable for a range of electronic and ICT positions in the smart economy.

Graduates of this course are well qualified to work in wireless communications and embedded systems space. Both of these areas are seeing business growth and, despite the demand, both areas are experiencing a shortage of suitably skilled engineers. Therefore this programme will significantly enhance your job prospects in these fields.
The region around Maynooth and the Greater Dublin Region is host to one of the greatest concentrations of ICT companies – ranging from large multinational companies such as Intel, IBM and Google to a very active and strong ecosystem of specialist and start-up companies. Maynooth University is at the heart of this industry and this programme will provide opportunities for students to engage with the community.
As a result of the advanced techniques introduced and the substantial project, this programme also provides a suitable foundation for students who may be considering undertaking further research in the area of the internet of Things, embedded systems and wireless communication.
International students from outside the European Economic Area may also avail of the Third Level Graduate Scheme which allows graduates to remain in Ireland for up to 12 months after graduation to seek employment and if successful to apply for a Work Permit or Green Card Permit.

How To Apply

Online application only http://www.pac.ie/maynoothuniversity

PAC Code
MHJ50 Full-time


The following information should be forwarded to PAC, 1 Courthouse Square, Galway or uploaded to your online application form:

Certified copies of all official transcripts of results for all non-Maynooth University qualifications listed MUST accompany the application. Failure to do so will delay your application being processed. non-Maynooth University students are asked to provide two academic references and a copy of birth certificate or valid passport.

Applicants may be required to attend for interview as part of the admissions process.

Applicants who do not hold a degree in Electronic, Electrical, Computer, or Telecommunications Engineering should include a complete syllabus describing the content of their primary degree.

Find information on Scholarships here https://www.maynoothuniversity.ie/study-maynooth/postgraduate-studies/fees-funding-scholarships

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Commercial products today combine many technologies, and industry is increasingly interdisciplinary. This course is designed to meet this demand, giving you an interdisciplinary knowledge base in modern electronics including power, communications, control and embedded processors. Read more

Commercial products today combine many technologies, and industry is increasingly interdisciplinary. This course is designed to meet this demand, giving you an interdisciplinary knowledge base in modern electronics including power, communications, control and embedded processors.

You’ll develop a broad grasp of a range of interlocking disciplines, combining core modules developing your practical lab skills and industry awareness with a range of optional modules that allow you to focus on topics that suit your interests or career plans. Next-generation silicon technologies, electric drives and generating electric power from renewable sources are among the topics you could study.

This course will appeal to people with a broad interest in electronics and communications, as well as those who are interested in modern communications techniques, radio propagation, cellular mobile systems, control systems, power and drives, and modern system on-chip technology.

Specialist facilities

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 project, you may have use of our Terahertz photonics lab, ultrasound and bioelectronics labs, class 100 semiconductor cleanroom, traffic generators and analysers, FPGA development tools, sensor network test beds.

The School also contains facilities for electron-beam lithography and ceramic circuit fabrication – and a III-V semiconductor molecular beam epitaxy facility. The Faculty is also home to the £4.3 million EPSRC National Facility for Innovative Robotic Systems, set to make us a world leader in robot design and construction.

Accreditation

This course is accredited by the Institution of Engineering and Technology (IET) under licence from the UK regulator, the Engineering Council.

Course content

Throughout the course you’ll choose from a range of optional modules that allow you to pursue topics across electronic and electrical engineering as they relate to your interests or career plans. You could focus on FPGA design for system-on-chip, wireless communications systems nano-electromechanical systems among many others to gain a broad and deep understanding a range of subjects.

A set of core modules will support your learning. You’ll take part in a range of experiments linked to your subject on our lab module, and you’ll develop your skills in programming. If you have no experience of C programming you’ll take the Programming module, or you can take Software Development if you already have those skills.

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.

Over the summer months you’ll also work on your research project. This may give you the chance to work as an integral part of one of our active research groups, focusing on a specialist topic in computer science and selecting the appropriate research methods.

Want to find out more about your modules?

Take a look at the Electronic and Electrical Engineering module descriptions for more detail on what you will study.

Course structure

Compulsory modules

  • Industry Dissertation 15 credits
  • Mini Projects and Laboratory 15 credits
  • Main Project 45 credits

Optional modules

  • Wireless Communications Systems Design 15 credits
  • Micro- and Nano-Electromechanical Systems 15 credits
  • Power Electronics and Drives 15 credits
  • Electric Power Generation by Renewable Sources 15 credits
  • Electric Drives 15 credits
  • FPGA Design for System-on-Chip 15 credits
  • Control Systems Design 15 credits
  • Embedded Microprocessor System Design 15 credits
  • Medical Electronics and E-Health 15 credits
  • Programming 15 credits
  • Software Development 15 credits

For more information on typical modules, read Electronic and Electrical Engineering MSc(Eng) in the course catalogue

Learning and teaching

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.

Assessment

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.

Projects

The professional 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 in the School of Electronic and Electrical Engineering have included:

  • Wireless sensor networks, the internet of things and bicycle traffic in the city.
  • Device to Monitor Activity of Ageing People
  • Wind turbine strain gauge system
  • Wind turbine teaching demonstrator
  • Virtual Machines Placement in Core Networks with Renewable Energy
  • Design and Analysis of High-Performance Internet Routers
  • Spatial Modulation for Massive MIMO System
  • Fuel cell for energy storage
  • Low cost design and fabrication of 3D MEMS components
  • Ultrasonic Wind Speed Detection
  • Core Quantum Networks
  • Microwave Low Noise Amplifier

A proportion of projects are formally linked to industry, and can include spending time at the collaborator’s site over the summer.

Career opportunities

Graduates of this course can expect to find jobs where industry needs a breadth of knowledge matched by a depth in certain areas.

You’ll be well equipped to integrate and co-ordinate the strands of a cross-disciplinary project and manage the interfaces between specialities. With these skills, you’ll be in a good position to progress to project management roles in companies working at the cutting edge of modern multi-faceted systems.

General Electric, AECOM, Deep Sea Electronics, Hyperdrive Innovation, Descon Engineering, Broadcom, Pakistan Oilfields Ltd., Wabtec Rail UK and many others are among the organisations where graduates from our School have found employment.



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The huge growth of processing power, now available in small power-efficient packages, has fuelled the digital revolution, which has touched all sectors of the economy. Read more

The huge growth of processing power, now available in small power-efficient packages, has fuelled the digital revolution, which has touched all sectors of the economy. This practically orientated, advanced course in the area of electronics design and applications provides a strong digital technology core backed with applications-led modules.

You’ll study applications as diverse as medical and electronics, e-health, intelligent building design, automotive electronics, retail and commerce to prepare you for a range of careers in industry, where the skills you gain will be in high demand. A substantial element of practical work will give you confidence with software and digital hardware implementations using microcontrollers, FPGA, DSP devices and general system-on-chip methodology.

You’ll be taught by experts informed by their own world-leading research, and you’ll have access to world-class facilities to prepare for a career in a fast-changing industry.

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, ultrasound and bioelectronics.

There’s also a 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.

Accreditation

This course is accredited by the Institution of Engineering and Technology (IET) under licence from the UK regulator, the Engineering Council.

Course content

The programme is built around a set of core modules that will develop your knowledge and skills areas such as digital signal processing, embedded microprocessor systems and how electronics and communications technology could be used in healthcare. You’ll also take a core lab-based module to give you experience of different circuits, systems, equipment and tools.

Optional modules will give you the chance to develop specialist knowledge. If you don’t have any experience of C programming, you’ll take Programming – otherwise, you can choose to take either this module of Software Development. Then you’ll choose one additional module specialising either in data communications and network security or the principles of digital wireless communications.

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.

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 computer science and selecting the appropriate research methods.

Want to find out more about your modules?

Take a look at the Embedded Systems Engineering module descriptions for more detail on what you will study.

Course structure

Compulsory modules

  • Industry Dissertation 15 credits
  • Digital Signal Processing for Communications 15 credits
  • Mini Projects and Laboratory 15 credits
  • FPGA Design for System-on-Chip 15 credits
  • Digital Media Engineering 15 credits
  • Embedded Microprocessor System Design 15 credits
  • Medical Electronics and E-Health 15 credits
  • Main Project 45 credits

Optional modules

  • Digital Wireless Communications Principles 15 credits
  • Data Communications and Network Security 15 credits
  • Programming 15 credits
  • Software Development 15 credits

For more information on typical modules, read Embedded Systems Engineering MSc(Eng) in the course catalogue

Learning and teaching

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.

Assessment

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.

Projects

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.

A proportion of projects are formally linked to industry, and may include spending time at the collaborator’s site over the summer.

Career opportunities

Embedded systems are ubiquitous in engineering and graduates are likely to find employment in a wide and diverse range of industries including: communications, automotive, transport, construction, industrial, automation, energy and environmental monitoring

Careers support

You’ll have access to the wide range of engineering and computing careers resources held by our Employability team in our dedicated Employability Suite. You’ll have the chance to attend industry presentations book appointments with qualified careers consultants and take part in employability workshops. Our annual Engineering and Computing Careers Fairs provide further opportunities to explore your career options with some of the UK’s leading employers.

The University's Careers Centre also provide a range of help and advice to help you plan your career and make well-informed decisions along the way, even after you graduate. Find out more at the Careers website



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The communications sector has changed dramatically in the past 5 years, as mobile internet, smartphones and associated apps such as social media, commerce and digital media have spurred an information revolution. Read more

The communications sector has changed dramatically in the past 5 years, as mobile internet, smartphones and associated apps such as social media, commerce and digital media have spurred an information revolution.

This programme responds to the growth of networks and mobile internet applications, allowing you to study traditional communications theory alongside modules dealing with network security and the protocols for high-speed switches and routers.

You’ll build your knowledge of new developments in data-centric networking and the growing trend in cloud computing and online services, such as web-search, video content hosting and distribution, social networking and large-scale computations. Optional modules will allow you to specialise in topics appropriate to your interests and career plans.

It’s a chance to gain specialist knowledge and skills that will be in demand over a wide range of disciplines, from the traditional communications industries to banking, finance and commerce.

Specialist facilities

Our School is an exciting and stimulating environment where you’ll learn from leading researchers in specialist facilities. Depending on your research project, these may include our Keysight Technologies wireless communications lab, as well as labs for embedded systems, power electronics and drives, ultrasound and bioelectronics.

There’s also a 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.

The Faculty is also home to the £4.3 million EPSRC National Facility for Innovative Robotic Systems, set to make us a world leader in robot design and construction.

Course content

The programme is built around a set of core modules that develop your knowledge across both semesters. You’ll build your understanding of topics like communication network design, high-speed internet architecture, optical communications networks, data communications and the issues surrounding network security.

If you have no experience of C programming, you’ll also take a module that will equip you with these skills. However, if you do, you could choose to take a specialist module on software development instead. In addition, you’ll choose from optional modules on topics such as digital media engineering, cellular mobile communication systems and even applications of this technology in the medical sector.

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.

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 computer science and selecting the appropriate research methods.

Want to find out more about your modules?

Take a look at the Digital Communications Networks module descriptions for more detail on what you will study.

Course structure

Compulsory modules

  • Industry Dissertation 15 credits
  • Communication Network Design 15 credits
  • Optical Communications Networks 15 credits
  • High Speed Internet Architecture 15 credits
  • Data Communications and Network Security 15 credits
  • Main Project 45 credits

Optional modules

  • Wireless Communications Systems Design 15 credits
  • Cellular Mobile Communication Systems 15 credits
  • Digital Wireless Communications Principles 15 credits
  • FPGA Design for System-on-Chip 15 credits
  • Digital Media Engineering 15 credits
  • Medical Electronics and E-Health 15 credits
  • Programming 15 credits
  • Software Development 15 credits

For more information on typical modules, read Digital Communications Networks MSc(Eng) in the course catalogue

Learning and teaching

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.

Assessment

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.

Career opportunities

Career prospects are excellent. There is a wide range of career opportunities in all aspects of the communications industry, and the skills learned here will also be generic to allow employment in other sectors such as finance, banking, general manufacturing, etc.

Graduates from our School have pursued careers with organisations like Cisco Systems, General Electric, Huawei, Ericsson Telecommunications, Intel Corp., Technology and Strategy Board, Wabtec Rail UK, AECOM and Orascom Telecom.

Some graduates also choose the path of academic research and therefore subsequently undertake a PhD.

Careers support

You’ll have access to the wide range of engineering and computing careers resources held by our Employability team in our dedicated Employability Suite. You’ll have the chance to attend industry presentations book appointments with qualified careers consultants and take part in employability workshops. Our annual Engineering and Computing Careers Fairs provide further opportunities to explore your career options with some of the UK’s leading employers.

The University's Careers Centre also provide a range of help and advice to help you plan your career and make well-informed decisions along the way, even after you graduate. Find out more at the Careers website



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Mobile communications provide terrestrial coverage in densely populated areas, while satellite communications enable wireless communication in regions where mobile networking is not cost-effective. Read more

Mobile communications provide terrestrial coverage in densely populated areas, while satellite communications enable wireless communication in regions where mobile networking is not cost-effective. The programme gives you an in-depth understanding of the engineering aspects of these important current and future technologies.

Read about the experience of a previous student on this course, Gideon Ewa.

Programme structure

This programme is studied full-time over one academic year and part-time students must study at least two taught technical modules per academic year, until a total of eight is reached. It consists of eight taught modules and a project.

Example module listing

The following modules are indicative, reflecting the information available at the time of publication. Please note that not all modules described are compulsory and may be subject to teaching availability and/or student demand.

Educational aims of the programme

The programme aims to:

  • Attract well-qualified entrants, with a background in Electronic Engineering, Physical Sciences, Mathematics, Computing & Communications, from the UK, Europe and overseas
  • Provide participants with advanced knowledge, practical skills and understanding applicable to the MSc degree
  • Develop participants' understanding of the underlying science, engineering, and technology, and enhance their ability to relate this to industrial practice
  • Develop participants' critical and analytical powers so that they can effectively plan and execute individual research/design/development projects
  • Provide a high level of flexibility in programme pattern and exit point
  • Provide students with an extensive choice of taught modules, in subjects for which the Department has an international and UK research reputation

Intended capabilities for MSc graduates:

  • Underpinning learning– know, understand and be able to apply the fundamental mathematical, scientific and engineering facts and principles that underpin mobile and satellite communications
  • Engineering problem solving - be able to analyse problems within the field of mobile and satellite communications and more broadly in electronic engineering and find solutions
  • Engineering tools - be able to use relevant workshop and laboratory tools and equipment, and have experience of using relevant task-specific software packages to perform engineering tasks
  • Technical expertise - know, understand and be able to use the basic mathematical, scientific and engineering facts and principles associated with the topics within mobile and satellite communications
  • Societal and environmental context - be aware of the societal and environmental context of his/her engineering activities
  • Employment context - be aware of commercial, industrial and employment-related practices and issues likely to affect his/her engineering activities
  • Research & development investigations - be able to carry out research-and- development investigations
  • Design - where relevant, be able to design electronic circuits and electronic/software products and systems

Technical characteristics of the pathway

This Programme in Mobile and Satellite Communications reflects the importance of mobile telephony, mobile data communications and satellite-based communications as complementary technologies.

Students will gain a detailed knowledge of the fundamentals and advanced concepts involved in communications and 3G/4G/5G mobile technology, and satellite-based communications and networking.

This material is complemented by study in areas such as mobile applications and web services, mobile app software development, RF design, the Internet of Things, and network management.

The teaching material and projects are closely related to the research being carried out in the EE Department's Institute for Communications Systems.

Global opportunities

We often give our students the opportunity to acquire international experience during their degrees by taking advantage of our exchange agreements with overseas universities.

In addition to the hugely enjoyable and satisfying experience, time spent abroad adds a distinctive element to your CV.



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Our MSc in Communications, Networks and Software covers the key aspects of the changing Internet environment, in particular the convergence of computing and communications underpinned by software-based solutions. Read more

Our MSc in Communications, Networks and Software covers the key aspects of the changing Internet environment, in particular the convergence of computing and communications underpinned by software-based solutions.

Some of our students undertaking their project are able to work on one of our wide range of testbeds, such as internet technologies, wireless networking, network management and control, and internet-of-things (IoT) applications.

We also have specialist software tools for assignments and project work, including OPNET, NS2/3, and various system simulators.

Read about the experience of a previous student on this course, Efthymios Bliatis.

Programme structure

This programme is studied full-time over 12 months or part-time from 24 to 60 months. It consists of eight taught modules and a project.

Example module listing

The following modules are indicative, reflecting the information available at the time of publication. Please note that not all modules described are compulsory and may be subject to teaching availability and/or student demand.

Educational aims of the programme 

The taught postgraduate degree programmes of the Department are intended both to assist with professional career development within the relevant industry and, for a small number of students, to serve as a precursor to academic research.

Our philosophy is to integrate the acquisition of core engineering and scientific knowledge with the development of key practical skills (where relevant).

To fulfil these objectives, the programme aims to:

  • Attract well-qualified entrants, with a background in Electronic Engineering, Physical Sciences, Mathematics, Computing and Communications, from the UK, Europe and overseas
  • Provide participants with advanced knowledge, practical skills and understanding applicable to the MSc degree
  • Develop participants' understanding of the underlying science, engineering, and technology, and enhance their ability to relate this to industrial practice
  • Develop participants' critical and analytical powers so that they can effectively plan and execute individual research/design/development projects
  • Provide a high level of flexibility in programme pattern and exit point
  • Provide students with an extensive choice of taught modules, in subjects for which the Department has an international and UK research reputation

A graduate from this MSc Programme should:

  • Know, understand and be able to apply the fundamental mathematical, scientific and engineering facts and principles that underpin communications, networks and software
  • Be able to analyse problems within the field of communications, networks and software and more broadly in electronic engineering and find solutions
  • Be able to use relevant workshop and laboratory tools and equipment, and have experience of using relevant task-specific software packages to perform engineering tasks
  • Know, understand and be able to use the basic mathematical, scientific and engineering facts and principles associated with the topics within communications, networks and software
  • Be aware of the societal and environmental context of his/her engineering activities
  • Be aware of commercial, industrial and employment-related practices and issues likely to affect his/her engineering activities
  • Be able to carry out research-and-development investigations
  • Be able to design electronic circuits and electronic/software products and systems

Facilities, equipment and support

We have a full range of software support for assignments and project work, including:

  • Matlab/Simulink, C, C++ and up-to-date toolboxes, systemsview, OPNET and NS2/3 (you will be able to access system simulators already built in-house, including 3GPP, BGAN, DVB-S2-RCS, GSM, UMTS, DVB-SH, WCDMA, GPRS, WiMAX, LTE, HSPA and HSDPA)
  • Our Rohde and Schwartz Satellite Networking Laboratory includes DVBS2-RCS generation and measurement equipment and roof-mounted antennas to pick up satellites (a security test-bed also exists for satellite security evaluation)
  • A fully equipped RF lab with network analyser, signal and satellite link simulations
  • A small anechoic chamber for antenna measurements (a wideband MIMO channel sounder is available for propagation measurements)
  • SatNEX is a European Network of Excellence in satellite communications, and a satellite platform exists to link the 22 partners around Europe (this is used for virtual meetings and to participate in lectures and seminars delivered by our partners)
  • A fully equipped UHF/VHF satellite ground-station facility is located on campus, which is being expanded to S-band and is supported by the ESA GENSO project (at present, the station tracks amateur satellites and CubeSats)
  • Our wide coverage experimental wireless network test-bed is based on IPv4, and IPv6 for testing new networking protocols for mobility, handover, security, cognitive radio and networking can be carried out (most networking protocol projects use this test-bed, with the help of PhD students and staff)
  • We are the only university in the UK that has an IP-Multimedia Subsystem (IMS) test-bed for developing and experimenting with advanced mobile/wireless services/applications – you can use this to carry out your services and application-based projects for mobile multimedia, such as multi-mode user interface, service mobility, service discovery and social networking services
  • Our wireless sensor test-bed is unique; advanced routing protocols, middleware architectures, air interface and networking protocols for wireless sensor networks can be developed and tested

Global opportunities

We often give our students the opportunity to acquire international experience during their degrees by taking advantage of our exchange agreements with overseas universities.

In addition to the hugely enjoyable and satisfying experience, time spent abroad adds a distinctive element to your CV.



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This course aims to provide the knowledge and skills required to design, model and effectively operate secure and dependable digital IP-based networks. Read more
This course aims to provide the knowledge and skills required to design, model and effectively operate secure and dependable digital IP-based networks. It will provide you with the opportunity to gain a sound understanding of the internet protocol suite that forms the core for current data networks. The fusion of the internet world and multimedia is also addressed, as well as wireless communications. You can combine this course with management studies.

Key features
-This course is accredited by BCS, The Chartered Institute for IT.
-You will have the opportunity to study for industry certification, including CISCO, as an optional extra to the masters programme.
-You will have the option to work in one of our state-of-the-art research labs, called WMN (Wireless Multimedia and Networking). WMN is involved in EU and UK research collaborations and offers opportunities for advanced research and short-term research fellowships on completion of your MSc degree.

What will you study?

Using the latest methods and conforming to current network design standards, you will develop a disciplined engineering approach to, and sound practical skills in, the specification, design, modelling and implementation of software and hardware. You will gain specialist knowledge of digital communications , multimedia communications , wireless networks, security issues and other advanced technologies. You will have access to a dedicated test LAN/ WLAN with a diverse range of platforms and equipment, including wireless networks and enterprise scale networking technologies.

The management studies route modules will set your technical knowledge in a management context.

Assessment

Coursework and/or exams, research project/dissertation.

Work placement scheme

Kingston University has set up a scheme that allows postgraduate students in the Faculty of Science, Engineering and Computing to include a work placement element in their course starting from September 2017. The placement scheme is available for both international and home/EU students.

-The work placement, up to 12 months; is optional.
-The work placement takes place after postgraduate students have successfully completed the taught portion of their degree.
-The responsibility for finding the placement is with the student. We cannot guarantee the placement, just the opportunity to undertake it.
-As the work placement is an assessed part of the course for international students, this is covered by a student's tier 4 visa.

Details on how to apply will be confirmed shortly.

Course structure

The full MSc course consists of an induction programme, four taught modules, and project dissertation. Please note that this is an indicative list of modules and is not intended as a definitive list.

Networking and Data Communications MSc modules
-Data Communications
-Wireless Communications and Networks
-Network and Information Security
-Multimedia Communications
-Project Dissertation

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