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Masters Degrees (Electronics And Communication Engineering)

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Visit our website for more information on fees, scholarships, postgraduate loans and other funding options to study Electronic and Electrical Engineering at Swansea University - 'Welsh University of the Year 2017' (Times and Sunday Times Good University Guide 2017). Read more

Visit our website for more information on fees, scholarships, postgraduate loans and other funding options to study Electronic and Electrical Engineering at Swansea University - 'Welsh University of the Year 2017' (Times and Sunday Times Good University Guide 2017).

As a student on the Master's course in Electronic and Electrical Engineering, you will develop specialist skills aligned with the College of Engineering’s research interests and reflecting the needs of the electronics industry.

Key Features of MSc in Electronic and Electrical Engineering

The MSc Electronic and Electrical Engineering course covers the ability to apply the knowledge gained in the course creatively and effectively for the benefit of the profession, to plan and execute a programme of work efficiently, and to be able, on your own initiative, to enhance your skills and knowledge as required throughout your career in Electronic and Electrical Engineering.

Students on the Electronic and Electrical Engineering course benefit from the use of industry-standard equipment, such as a scanning tunnelling microscope for atomic scale probing or an hp4124 parameter analyzer for power devices, for simulation, implementation and communication.

During the Electronic and Electrical Engineering course there will be the opportunity to choose and apply suitable prototyping and production methods and components, gain knowledge in constructing and evaluating advanced models of various manufacturing techniques, and be able to differentiate, analyse and discuss various product lifetime management solutions and how they affect different sectors of Electronic and Electrical Engineering industry.

The MSc in Electronic and Electrical Engineering programme is modular in structure. Students must obtain a total of 180 credits to qualify for the degree. This is made up of 120 credits in the taught element (Part One) and a project (Part Two) that is worth 60 credits and culminates in a written dissertation in Electronic and Electrical Engineering. Students on the Electronic and Electrical Engineering course must successfully complete Part One before being allowed to progress to Part Two.

Part-time Delivery mode of MSc in Electronic and Electrical Engineering

The part-time scheme of the MSc in Electronic and Electrical Engineering is a version of the full-time equivalent MSc in Electronic and Electrical Engineering scheme, and as such it means lectures are spread right across each week and you may have lectures across every day. Due to this timetabling format, the College advises that the scheme is likely to suit individuals who are looking to combine this with other commitments (typically family/caring) and who are looking for a less than full-time study option in Electronic and Electrical Engineering.

Those candidates seeking to combine the part-time option with full-time work are unlikely to find the timetable suitable, unless their job is extremely flexible and local to the Bay Campus.

Modules on Electronic and Electrical Engineering

Modules on the MSc Electronic and Electrical Engineering course can vary each year but you could expect to study:

Communication Skills for Research Engineers

Energy and Power Electronics Laboratory

Power Semiconductor Devices

Advanced Power Electronics and Drives

Wide Band-Gap Electronics

Power Generation Systems

Modern Control Systems

Advanced Power Systems

Signals and Systems

Digital Communications

Optical Communications

Probing at the Nanoscale

RF and Microwaves

Wireless Communications

Facilities for Electronic and Electrical Engineering

The new home of the Electronic and Electrical Engineering programme is at the innovative Bay Campus which provides some of the best university facilities in the UK, in an outstanding location.

Engineering at Swansea University has extensive IT facilities and provides extensive software licenses and packages to support teaching. In addition the University provides open access IT resources.

Find out more about the facilities used by Electronic and Electrical students at Swansea University, including the electronics lab on our website.

Links with Industry

At Swansea University, Electronic and Electrical Engineering has an active interface with industry and many of our activities are sponsored by companies such as Agilent, Auto Glass, BT and Siemens.

Electronic and Electrical Engineering has a good track record of working with industry both at research level and in linking industry-related work to our postgraduate courses. We also have an industrial advisory board that ensures our taught courses including the MSc in Electronic and Electrical Engineering maintain relevance.

Our research groups work with many major UK, Japanese, European and American multinational companies and numerous small and medium sized enterprises (SMEs) to pioneer research. This activity filters down and influences the project work that is undertaken by all our postgraduate students including those on the MSc in Electronic and Electrical Engineering.

Careers

Electronic and Electrical Engineering graduates find employment in industry, research centres, government or as entrepreneurs in a wide range of careers, from a design and development role for electronic and electrical equipment or as a technological specialist contributing to a multi-disciplinary team in a range of fields, including medicine, travel, business and education.

Research

The Research Excellence Framework (REF) 2014 ranks Engineering at Swansea as 10th in the UK for the combined score in research quality across the Engineering disciplines.

The REF assesses the quality of research in the UK Higher Education sector, assuring us of the standards we strive for.

World-Leading Research

The REF shows that 94% of research produced by our academic staff is of World-Leading (4*) or Internationally Excellent (3*) quality. This has increased from 73% in the 2008 RAE.

Research pioneered at the College of Engineering harnesses the expertise of academic staff within the department. This ground-breaking multidisciplinary research informs our world-class teaching with several of our staff leaders in their fields.

With recent academic appointments strengthening electronics research at the College, the Electronic Systems Design Centre (ESDC) has been re-launched to support these activities.

The Centre aims to represent all major electronics research within the College and to promote the Electrical and Electronics Engineering degree.

Best known for its research in ground-breaking Power IC technology, the key technology for more energy efficient electronics, the Centre is also a world leader in semiconductor device modelling, FEM and compact modelling.



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Visit our website for more information on fees, scholarships, postgraduate loans and other funding options to study Communications Engineering at Swansea University - 'Welsh University of the Year 2017' (Times and Sunday Times Good University Guide 2017). Read more

Visit our website for more information on fees, scholarships, postgraduate loans and other funding options to study Communications Engineering at Swansea University - 'Welsh University of the Year 2017' (Times and Sunday Times Good University Guide 2017).

As a student on the MSc in Communications Engineering, you will be provided with an in-depth understanding of the technology and architecture of computer communications, photonics and telecommunication networks, wireless telecommunications and related wireless information technologies.

Key Features of MSc in Communications Engineering

The practical knowledge and skills you will gain as a student on the MSc Communications Engineering course include being presented with the essential element of modern optical communication systems based on single mode optical fibres from the core to the access, evaluating bandwidth-rich contemporary approaches.

The MSc Communications Engineering course also covers advanced networking topics including network performance and network security. This is supported with some practical knowledge and skills for project and business management principles.

As a student on the MSc Communications Engineering course, you will also be introduced to technologies underlying the compressions and transmission of digital video over networking platforms, gain knowledge on the channel models and associated impairments that typically limit the performance of wireless systems, and learn to design optimum digital communication receivers for some basic communications channel models.

The MSc in Communications Engineering is modular in structure. Communications Engineering students must obtain a total of 180 credits to qualify for the degree. This is made up of 120 credits in the taught element (Part One) and a project (Part Two) that is worth 60 credits and culminates in a written dissertation. Students on the Communications Engineering course must successfully complete Part One before being allowed to progress to Part Two.

Part-time MSc in Communications Engineering Delivery mode:

The part-time scheme is a version of the full-time equivalent MSc in Communications Engineering scheme, and as such it means lectures are spread right across each week and you may have lectures across every day. Due to this timetabling format, the College advises that the scheme is likely to suit individuals who are looking to combine this with other commitments (typically family/caring) and who are looking for a less than full-time study option.

Those candidates seeking to combine the part-time option with full-time work are unlikely to find the timetable suitable, unless their job is extremely flexible and local to the Bay Campus.

Timetables for the Communications Engineering programme are typically available one week prior to each semester.

Modules

Modules on the MSc Communications Engineering course can vary each year but you could expect to study:

RF and Microwave

Signals and Systems

Entrepreneurship for Engineers

Nanophotonics

Micro and Nano Electro-Mechnical Systems

Lasers and applications

Wireless Communications

Digital Communications

Optical Communications

Optical Networks

Communication Skills for Research Engineers

Research Dissertation

MSc Dissertation - Communications Engineering

Facilities

Our new home at the innovative Bay Campus provides some of the best university facilities in the UK, in an outstanding location.

Engineering at Swansea University has extensive IT facilities and provides extensive software licenses and packages to support teaching which benefit students on the MSc in Communications Engineering course. In addition the University provides open access IT resources.

Links with Industry

At Swansea University, Electronic and Electrical Engineering has an active interface with industry and many of our activities are sponsored by companies such as Agilent, Auto Glass, BT and Siemens.

This discipline has a good track record of working with industry both at research level and in linking industry-related work to our postgraduate courses. We also have an industrial advisory board that ensures our taught courses maintain relevance.

Our research groups work with many major UK, Japanese, European and American multinational companies and numerous small and medium sized enterprises (SMEs) to pioneer research. This activity filters down and influences the project work that is undertaken by all our postgraduate students.

Careers

The MSc Communications Engineering is suitable for those who have a career interest in the field of communication systems, which has been fundamentally changing the whole world in virtually every aspect, and would like to gain lasting career skills and in-depth knowledge to carry out development projects and advanced research in the area of communication systems.

Communications Engineering graduates can seek employment in wireless communication systems and network administration, and mobile applications development.

Student Quotes

“I was fascinated by the natural beauty of Swansea before I came here. Swansea University is near the beach so you can walk around the beach at any time. This Master’s is very useful to enhance your ability and enrich your principle of the academic knowledge.”

Zhang Daping, MSc Communication Systems (now Communications Engineering)

Research

The Research Excellence Framework (REF) 2014 ranks Engineering at Swansea as 10th in the UK for the combined score in research quality across the Engineering disciplines.

The REF assesses the quality of research in the UK Higher Education sector, assuring us of the standards we strive for.

World-Leading Research

The REF shows that 94% of research produced by our academic staff is of World-Leading (4*) or Internationally Excellent (3*) quality. This has increased from 73% in the 2008 RAE.

Research pioneered at the College of Engineering harnesses the expertise of academic staff within the department. This ground-breaking multidisciplinary research informs our world-class teaching with several of our staff leaders in their fields.

With recent academic appointments strengthening electronics research at the College, the Electronic Systems Design Centre (ESDC) has been re-launched to support these activities.

The Centre aims to represent all major electronics research within the College and to promote the Electrical and Electronics Engineering degree.

Best known for its research in ground-breaking Power IC technology, the key technology for more energy efficient electronics, the Centre is also a world leader in semiconductor device modelling, FEM and compact modelling.



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Visit our website for more information on fees, scholarships, postgraduate loans and other funding options to study Power Engineering and Sustainable Energy at Swansea University - 'Welsh University of the Year 2017' (Times and Sunday Times Good University Guide 2017). Read more

Visit our website for more information on fees, scholarships, postgraduate loans and other funding options to study Power Engineering and Sustainable Energy at Swansea University - 'Welsh University of the Year 2017' (Times and Sunday Times Good University Guide 2017).

The Master's course in Power Engineering and Sustainable Energy places strong emphasis on state-of-the-art semiconductor devices and technologies, advanced power electronics and drives, and advanced power systems. The Power Engineering and Sustainable Energy course also covers conventional and renewable energy generation technologies. Exciting new developments such as wide band gap electronics, energy harvesting, solar cells and biofuels are discussed and recent developments in power electronics are highlighted.

Key Features of MSc in Power Engineering and Sustainable Energy

The College of Engineering has an international reputation for electrical and electronics research for energy and advanced semiconductor materials and devices.

Greenhouse gas emission and, consequently, global warming are threatening the global economy and world as we know it. A non-rational use of electrical energy largely contributes to these.

Sustainable energy generation and utilisation is a vital industry in today’s energy thirsty world. Energy generation and conversion, in the most efficient way possible, is the key to reducing carbon emissions. It is an essential element of novel energy power generation system and future transportation systems. The core of an energy conversion system is the power electronics converter which in one hand ensures the maximum power capture from any energy source and on another hand controls the power quality delivered to grid. Therefore the converter parameters such as efficiency, reliability and costs are directly affecting the performance of an energy system.

Transmission and distribution systems will encounter many challenges in the near future. Decentralisation of generation and storage systems has emerged as a promising solution. Consequently, in the near future, a power grid will no longer be a mono-directional energy flow system but a bi-directional one, requiring a much more complex management.

The MSc in Power Engineering and Sustainable Energy is modular in structure. Students must obtain a total of 180 credits to qualify for the degree. This is made up of 120 credits in the taught element (Part One) and a project (Part Two) that is worth 60 credits and culminates in a written dissertation. Power Engineering and Sustainable Energy students must successfully complete Part One before being allowed to progress to Part Two.

Part-time Delivery mode

The part-time scheme is a version of the full-time equivalent MSc in Power Engineering and Sustainable Energy scheme, and as such it means lectures are spread right across each week and you may have lectures across every day. Due to this timetabling format, the College advises that the scheme is likely to suit individuals who are looking to combine this with other commitments (typically family/caring) and who are looking for a less than full-time study option.

Those candidates seeking to combine the part-time option with full-time work are unlikely to find the timetable suitable, unless their job is extremely flexible and local to the Bay Campus.

Modules

Modules on the MSc Power Engineering and Sustainable Energy course can vary each year but you could expect to study:

Advanced Power Electronics and Drives

Power Semiconductor Devices

Advanced Power Systems

Energy and Power Engineering Laboratory

Power Generation Systems

Modern Control Systems

Wide Band-Gap Electronics

Environmental Analysis and Legislation

Communication Skills for Research Engineers

Optimisation

Facilities

The new home of MSc in Power Engineering and Sustainable Energy is at the innovative Bay Campus provides some of the best university facilities in the UK, in an outstanding location.

Engineering at Swansea University has extensive IT facilities and provides extensive software licenses and packages to support teaching. In addition the University provides open access IT resources.

Our new WOLFSON Foundation funded Power Electronics and Power System (PEPS) laboratory well-appointed with the state-of the-art equipment supports student research projects.

Careers

Employment in growing renewable energy sector, power electronic and semiconductor sector, electric/hybrid vehicle industry.

The MSc Power Engineering and Sustainable Energy is for graduates who may want to extend their technical knowledge and for professional applicants be provided with fast-track career development. This MSc addresses the skills shortage within the power electronics for renewable energy sector.

Links with industry

BT, Siemens, Plessey, GE Lighting, Schlumberger, Cogsys, Morganite, Newbridge Networks, Alstom, City Technology, BNR Europe, Philips, SWALEC, DERA, BTG, X-Fab, ZETEX Diodes, IQE, IBM, TSMC, IR, Toyota, Hitachi.

As a student on the MSc Power Engineering and Sustainable Energy course, you will learn about numerical simulation techniques and have the opportunity to visit electronics industries with links to Swansea.

Research

The Research Excellence Framework (REF) 2014 ranks Engineering at Swansea as 10th in the UK for the combined score in research quality across the Engineering disciplines.

The REF assesses the quality of research in the UK Higher Education sector, assuring us of the standards we strive for.

World-Leading Research

The REF shows that 94% of research produced by our academic staff is of World-Leading (4*) or Internationally Excellent (3*) quality. This has increased from 73% in the 2008 RAE.

Research pioneered at the College of Engineering harnesses the expertise of academic staff within the department. This ground-breaking multidisciplinary research informs our world-class teaching with several of our staff leaders in their fields.

With recent academic appointments strengthening electronics research at the College, the Electronic Systems Design Centre (ESDC) has been re-launched to support these activities.

The Centre aims to represent all major electronics research within the College and to promote the Electrical and Electronics Engineering degree.

Best known for its research in ground-breaking Power IC technology, the key technology for more energy efficient electronics, the Centre is also a world leader in semiconductor device modelling, FEM and compact modelling.



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The program aims to form Master graduates with a comprehensive and solid scientific and technological background in Electronics Engineering, able to design and to use electronic devices, electronic circuits and electronic systems of any complexity as well as to promote the diffusion of electronic technologies in the fields of human activity where benefits can be envisaged. Read more

Mission and goals

The program aims to form Master graduates with a comprehensive and solid scientific and technological background in Electronics Engineering, able to design and to use electronic devices, electronic circuits and electronic systems of any complexity as well as to promote the diffusion of electronic technologies in the fields of human activity where benefits can be envisaged.
To meet these training needs, the Master of Science in Electronics Engineering bases its roots on a full spectrum of basic courses (mathematics, classical and modern physics, computer science, signal theory, control and communications, basic electronic circuits) that are prerequisites required from the Bachelor, and focuses on the most advanced disciplines in electronic design (analog and digital electronics, solid state physics and devices, microelectronics, optoelectronics, sensors and electronic instrumentation, communications and control systems) to provide a complete and updated preparation. Upon graduating, students will have developed a “design oriented” mindset and acquired a skill to use engineering tools to design solutions to advanced electronic challenges in scientific and technological fields.

See the website http://www.polinternational.polimi.it/educational-offer/laurea-magistrale-equivalent-to-master-of-science-programmes/electronics-engineering/

Career opportunities

Thanks to the deep and solid scientific and technological knowledge provided, Master of Science graduates in Electronics Engineering will be able to hold positions of great responsibility, both at technical and management level, in a wide variety of productive contexts:
- Scientific and technological research centers, national and international, public or private;
- Industries of semiconductors, integrated circuits and in general of electronic components;
- Industries of electronic systems and instrumentation, such as consumer electronics (audio, video, telephone, computers, etc.), optoelectronics, biomedical, etc.;
- Electromechanical industries with high technological content such as aeronautics, transportation, aerospace, energy, robotics and plant automation, etc.;
- Work as a freelance in the design and fabrication of custom electronic systems.

Presentation

See http://www.polinternational.polimi.it/uploads/media/Electronics_Engineering_01.pdf
The Master of Science in Electronics Engineering aims to form graduates with a comprehensive and solid scientific and technological knowledge in the field of Electronics, able to design and to use electronic devices, electronic circuits and electronic systems of any complexity as well as to promote the diffusion of electronic technologies in the fields of human activity where benefits can be envisaged. The course focuses on the most advanced aspects of Electronics (analog and digital integrated circuits design, solid state devices, microelectronics, optoelectronic devices and sensors, electronic instrumentation, communications and control systems) to provide a complete and updated professional preparation. Upon graduating, students will have developed a “design oriented” mindset enabling them to successfully deal with the complex needs of today’s industrial system. They will have also acquired a skill to use engineering tools to design solutions to advanced electronic challenges in scientific and technological fields as well as a maturity to hold positions of great responsibility both at technical and management level. The programme is taught in English.

Required background from Bachelor studies

The Master of Science in Electronics Engineering bases its roots on a full spectrum of knowledge that students are expected to have successfully acquired in their Bachelor degree, like advanced mathematics, classical and modern physics, computer science, signal and communication theory, electric circuits and feedback control, basic electronic devices and analog & digital circuit analysis.

Subjects

- Analog & Digital Integrated Circuit Design
- MEMS and Microsensors
- Electronic Systems
- Electron Devices and Microelectronic Technologies
- Signal recovery and Feedback Control
- Optoelectronic Systems and Photonics Devices
- RF Circuit Design
- Power Electronics
- Semiconductor Radiation Detectors
- FPGA & Microcontroller System Design
- Biochip and Electronics Design for Biomedical Instrumentation

See the website http://www.polinternational.polimi.it/educational-offer/laurea-magistrale-equivalent-to-master-of-science-programmes/electronics-engineering/

For contact information see here http://www.polinternational.polimi.it/educational-offer/laurea-magistrale-equivalent-to-master-of-science-programmes/electronics-engineering/

Find out how to apply here http://www.polinternational.polimi.it/how-to-apply/

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This programme aims to provide students with knowledge and skills in the key aspects of communication, semiconductor, medical and embedded electronics. Read more

This programme aims to provide students with knowledge and skills in the key aspects of communication, semiconductor, medical and embedded electronics. Students can specialise in either communications electronics (embedded systems, networking, etc.) or cognitive electronics (sensors, sensor networks, medical diagnostics, measurement systems). The programme is supported by the ELIKO Competence Centre and the CEBE Centre of Excellence.

The students also have a chance to take part in significant research projects (e.g. implantable devices for cardiac monitors, sensors and monitors for transplanted organs and tissues, material quality measurement systems, smart home and city systems).

The research and study areas are situated in modern facilities and are equipped with modern computers, software, measurement equipment and tools that provide excellent opportunities for the students to either study or conduct research. All students of the IT-field are offered practical placement and job opportunities in Estonia or abroad already during the studies which provides professional experience in the field.

Key features

  • Develops high-level skills in aspects of semiconductor, medical and embedded electronics and communication technology
  • Telecommunications and bionics
  • Teaching staff are specialists in the field who are involved in key research projects
  • Guest lecturers from the industry
  • Enhances and broadens career opportunities in the rapidly changing communicative electronics industry

Curriculum

Structure of curriculum

Future career options

The programme provides the specialist knowledge and skills needed for a career leading to high-end technical or technology roles in communicative electronics. Possible future work positions include: designer of computer or automation systems and components, designer of electronics, monitoring and communication systems and their components, senior engineer, hardware developer, project manager, software engineer, etc.

An incomplete list includes the majority of famous worldwide electronics and communication engineering companies, particularly: Stoneridge Estonia, Ericsson Estonia, ABB, AS Siemens, Intel Europe, Texas Instruments, Liewenthal Electronics, Incap Electronics, UTU Elektrotehnika AS, Skype Technologies OÜ, Eesti Energia, LDI Innovation OÜ, Domestic and international hospitals like PERH, ITK, Tartu University clinicum, etc.



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Move up the hierarchy. Whether you are looking to move up the hierarchy in your engineering career, are interested in developing analytical skills through applied research, or both, Massey’s Master of Engineering Studies unique aspects will give you a step up. Read more

Move up the hierarchy

Whether you are looking to move up the hierarchy in your engineering career, are interested in developing analytical skills through applied research, or both, Massey’s Master of Engineering Studies unique aspects will give you a step up.

Find out more about the Master of Engineering Studies parent structure.

The Master of Engineering Studies (Electronics and Computer Engineering) is a high-quality programme combining taught and research courses at a postgraduate level. It is a 120 credit qualification able to be completed in one year full-time. 

If you are already working, or your research experience is limited, this qualification will give you the learning you need to take your career to the next level or pursue more in-depth postgraduate research. 

This qualification will help you become an excellent electronic and computer engineer. You will be multi-disciplinary, have excellent practical skills and be able to design, develop and manage both software and hardware projects. You will be capable of working in a team environment to solve problems from the device level to networks, communication systems and embedded systems.

Hands-on practice as you learn

There is a strong emphasis on embedding computing & electronics technologies in every-day consumer products and the importance of the user interface.

Solve real-world problems

While you will gain a thorough knowledge of the fundamental principles of engineering, the Master of Engineering Studies emphasises the application of your engineering learnings to complex real-world industrial problems. Massey staff have strong relationships with industry and you can utilise these to find projects of relevance to you. 

Unique specialities

The degree will help you gain expertise in an area outside of the focus of your undergraduate qualification, or current employment, or help you progress your career in your area of interest.

Advanced problem-solving skills

An integral part of your learning will be the experience working in a team environment to solve problems at a variety of conceptual levels.

You’ll gain the ability to learn independently, analyse industry needs and propose and validate tangible technical solutions, identify when your knowledge of a problem is lacking, and be able access and use the information required.

Access to broad expertise and equipment

As an engineering student at Massey University, you gain access to engineering and advanced technology-related expertise as well as a huge range of equipment and knowledge such as 3D printers and world class mechanical and electronic workshops, state-of-the art microscopic and genomic facilities, horticulture and agriculture expertise, extensive farm networks and a broad range of science, health, business and humanities-related staff. This unique capacity will enable you to build machines and devices for testing hypotheses and develop products in a modern multidisciplinary engineering context.

Why postgraduate study?

Postgraduate study is hard work but hugely rewarding and empowering. The Master of Engineering Studies will push you to produce your best creative, strategic and theoretical ideas. The workload replicates the high-pressure environment of senior workplace roles. Our experts are there to guide but if you have come from undergraduate study, you will find that postgraduate study demands more in-depth and independent study.

Not just more of the same

Postgraduate study is not just ‘more of the same’ undergraduate study. It takes you to a new level in knowledge, expertise, and the critical analytic skills needed to define a problem and develop, test, and validate engineering solutions. In fact, the world engineering originates from Latin ingenium, meaning "cleverness."



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This course is designed for students from a variety of engineering backgrounds, to enhance and develop electronic engineering knowledge and skills essential for the modern engineer. Read more
This course is designed for students from a variety of engineering backgrounds, to enhance and develop electronic engineering knowledge and skills essential for the modern engineer.

You will gain expertise and experience in the areas of analogue and digital systems and circuit design using state-of-the-art software and processors. You will gain the in-depth knowledge and skills you need for analysing, modelling and optimising the performance of advanced microelectronic and communication systems. The course covers a broad range of topics including advanced embedded system technologies, digital design automation and silicon electronic design, as well as optical fibre communication systems and wireless communications.

In the second year, for one semester, you’ll undertake an internship, study in another country or join a research group. This valuable experience will enhance your employability and further develop your theoretical and practical skills.

It’s also possible to complete this course in one year without the Advanced Practice element.

Learn From The Best

Our passion for research informs the curriculum and impacts our teaching, ensuring that course content stays current and our academic staffs are amongst the best in the country. The team include published authors and industry experts with research interests including analogue electronics, networking, professionalism in practice, teaching and learning in technology and project management.

The department of Physics and Electrical Engineering is a top-35 research department with 79% of our outputs ranked world-leading or internationally excellent according to the 2014 UK wide Research Excellence Framework. This places us in the top quartile for world-leading publications among UK universities in General Engineering.

Teaching And Assessment

Your progress will be monitored by lecturing staff and advice and appropriate links supplied to improve your learning. Web links are provided for further reading whilst online videos, where appropriate, are available for you to review taught material in your own time. Lecture material is enhanced with laboratory sessions which allow demonstration of theories and exploration of practical problems and limitations.

As a postgraduate student you will be expected to have a responsible and professional approach to learning, accessing the material and support provided and raising any problems with academic staff or your programme leader. You will have an opportunity to take an active role in the operation and content of the course via the departmental programme committee.

The Advanced Practice semester will be assessed via a report and presentation about your internship, study abroad or research group activities.

Module Overview
Year One
KD7019 - Advanced Embedded System Design Technology (Core, 20 Credits)
KD7020 - Digital Design Automation (Core, 20 Credits)
KD7063 - Wireless Communication Systems (Core, 20 Credits)
KD7064 - Optical Communications System (Core, 20 Credits)
KD7066 - Analogue Electronic Design (Core, 20 Credits)
KD7067 - Engineering Research and Project Management (Core, 20 Credits)

Year Two
KD7065 - MSc Engineering Project (Core, 60 Credits)
KF7005 - Engineering and Environment Advanced Practice (Core, 60 Credits)

Learning Environment

Whether your subject matter is renewable energy, astrophysics or communications, our range of specialist and general use facilities will support you. Throughout your work you will be able to measure, explore, experiment and model developments that are changing the way we all live our lives.

Technology to enhance learning in engineering is embedded throughout the course. This takes the form of self-guided exercises, online tests with feedback, assessment feedback and videos and tutorials to support lectures. Self-development and employability are enhanced throughout the course, especially with respect to communicating ideas in written and oral forms, the use of appropriate IT tools, personal time management, problem solving and independent learning skills.

Research-Rich Learning

Our course is at the forefront of current knowledge and practice, shaped by world-leading and internationally excellent research. All the modules are industry or research informed, based upon academic staff industrial experience, consultancy or personal research interests. This allows the knowledge and skills that you will acquire to meet the need and practical application for real world scenarios.

The course is supported by a team of academics who are highly respected by research groups around the world and who make a significant contribution to the faculty and University vision for the future of research within the higher education sector.

Give Your Career An Edge

A strong industrial and research based curriculum enhances your employability by considering real world scenarios in which known solutions are absent. You will be encouraged to research information from professional publications, company literature, etc. to determine innovative and appropriate solutions to these scenarios, enabling you to demonstrate relevant industry practice.

You will also be attached to one of the departmental or faculty research groups for your final dissertation, exposed to and incorporated into a working team and environment. This provides the opportunity for both work-related learning experience and professional career development.

Your Future

The rapid growth of the communications and microelectronics industries has created a strong demand for skilled engineers, who are able to design and manufacture semiconductors and freespace and optical communication systems. The UK Government’s commitment to high-speed broadband means that demand for communications engineers is expected to outstrip supply. UK and international demand for microelectronic engineers remains strong, with salaries reflecting employers’ need to attract the best candidates.

Upon graduation, you will be well-equipped to apply for roles such as communications engineer, electronic/electrical engineer, operational researcher, software engineer and systems developer. You may also consider the wider engineering and information technology sectors, including energy, transport, electronics and telecommunications, defence and manufacturing and engineering management.

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This programme enables students to work effectively in an engineering design role, whether that role concerns the design of products, processes or systems, at an overall or detail level. Read more
This programme enables students to work effectively in an engineering design role, whether that role concerns the design of products, processes or systems, at an overall or detail level. A balance of theory and practice is applied to the solving of real engineering design problems. All projects meet the product design requirements of one of our many co-operating companies.

Core study areas include structural analysis, engineering management and business studies, computer aided engineering, product design and human factors, engineering design methods, sustainable product design, the innovation process and project management, sustainable development: the engineering context and a project.

See the website http://www.lboro.ac.uk/study/postgraduate/programmes/departments/mechanical-manufacturing/engineering-design/

Programme modules

Compulsory Modules:
- Structural Analysis
- Engineering Management and Business Studies
- Computer Aided Engineering
- Product Design and Human Factors
- Engineering Design Methods
- Sustainable Product Design
- The Innovation Process and Project Management
- Sustainable Development: The Engineering Context
- Project

Careers and further study

Engineering design related jobs in product, process and system design environments, providing project management and communication skills and direct technical input. Graduates may also study for an MPhil or PhD with the School.

Why Choose Mechanical and Manufacturing Engineering at Loughborough?

The School of Mechanical and Manufacturing Engineering is a leader in technological research and innovation, with extensive national and international industrial links, and a long standing tradition of excellent teaching.

Our Industrial Advisory Committee, comprising of engineers at senior levels in the profession, ensures that our programmes contain the optimal balance of subjects and industrial relevance, with our programmes accredited by the Institution of Mechanical Engineers, Institution of Engineering and Technology and Institution of Engineering Designers.

- Facilities
The School has laboratories devoted to disciplines such as; dynamics and control, automation, fluid mechanics, healthcare engineering, internal combustion engines, materials, mechatronics, metrology, optical engineering, additive manufacturing, sports engineering, structural integrity and thermodynamics.

- Research
The School has a busy, multi-national community of well over 150 postgraduate research students who form an important part of our internationally recognised research activities.
We have seven key research centres (Electronics Manufacture, Intelligent Automation, Regenerative Medicine Embedded Intelligence, High Efficiency SCR for Low Emission Vehicles and High Value Manufacturing Catapult Centre) and we are a lead governing partner in the newly formed UK Manufacturing Technology Centre.

- Career prospects
90% of our graduates were in employment or further study within six months of graduating. Our graduates go on to work with companies such as Airbus, BAE Systems, Caterpillar, EDF Energy, Ford, IBM, Jaguar Land Rover, Millbrook Proving Ground, Rolls Royce and Tata Steel.

Find out how to apply here http://www.lboro.ac.uk/study/postgraduate/programmes/departments/mechanical-manufacturing/engineering-design/

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This programme pathway is designed for students with an interest in the engineering aspects of technology that are applied in modern medicine. Read more

This programme pathway is designed for students with an interest in the engineering aspects of technology that are applied in modern medicine. Students gain an understanding of bioengineering principles and practices that are used in hospitals, industries and research laboratories through lectures, problem-solving sessions, a research project and collaborative work.

About this degree

Students study in detail the engineering and physics principles that underpin modern medicine, and learn to apply their knowledge to established and emerging technologies in medical imaging and patient monitoring. The programme covers the engineering applications across the diagnosis and measurement of the human body and its physiology, as well as the electronic and computational skills needed to apply this theory in practice.

Students undertake modules to the value of 180 credits.

The programme consists of seven core modules (105 credits), one optional module (15 credits), and a research project (60 credits).

A Postgraduate Diploma (120 credits) is offered.

A Postgraduate Certificate (60 credits) is offered.

Core modules

  • Ionising Radiation Physics: Interactions and Dosimetry
  • Imaging with Ionising Radiation
  • MRI and Biomedical Optics
  • Ultrasound in Medicine
  • Medical Electronics and Control
  • Clinical Practice
  • Medical Device Enterprise Scenario

Optional modules

Students choose one of the following:

  • Applications of Biomedical Engineering
  • Materials and Engineering for Orthopaedic Devices
  • Computing in Medicine
  • Programming Foundations for Medical Image Analysis

Dissertation/report

All MSc students undertake an independent research project within the broad area of physics and engineering in medicine which culminates in a written report of 10,000 words, a poster and an oral examination.

Teaching and learning

The programme is delivered through a combination of lectures, demonstrations, practicals, assignments and a research project. Lecturers are drawn from UCL and from London teaching hospitals including UCLH, St. Bartholomew's, and the Royal Free Hospital. Assessment is through supervised examination, coursework, the dissertation and an oral examination.

Further information on modules and degree structure is available on the department website: Physics and Engineering in Medicine: Biomedical Engineering and Medical Imaging MSc

Funding

For a comprehensive list of the funding opportunities available at UCL, including funding relevant to your nationality, please visit the Scholarships and Funding website.

Careers

Graduates from the Biomedical Engineering and Medical Imaging stream of the MSc programme have obtained employment with a wide range of employers in health care, industry and academia sectors.

Employability

Postgraduate study within the department offers the chance to develop important skills and acquire new knowledge through involvement with a team of scientists or engineers working in a world-leading research group. Graduates complete their study having gained new scientific or engineering skills applied to solving problems at the forefront of human endeavour. Skills associated with project management, effective communication and teamwork are also refined in this high-quality working environment.

Why study this degree at UCL?

The spectrum of medical physics activities undertaken in UCL Medical Physics & Biomedical Engineering is probably the broadest of any in the United Kingdom. The department is widely acknowledged as an internationally leading centre of excellence and students receive comprehensive training in the latest methodologies and technologies from leaders in the field.

The department operates alongside the NHS department which provides the medical physics and clinical engineering services for the UCL Hospitals Trust, as well as undertaking industrial contract research and technology transfer.

Students have access to a wide range of workshop, laboratory, teaching and clinical facilities in the department and associated hospitals. A large range of scientific equipment is available for research involving nuclear magnetic resonance, optics, acoustics, X-rays, radiation dosimetry, and implant development, as well as new biomedical engineering facilities at the Royal Free Hospital and Royal National Orthopaedic Hospital in Stanmore.



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The Engineering faculties of the Universiteit Gent and Vrije Universiteit Brussel organize the interuniversitary Master of Biomedical Engineering and this in a close collaboration with the Medical faculties of both universities. Read more

About the programme

The Engineering faculties of the Universiteit Gent and Vrije Universiteit Brussel organize the interuniversitary Master of Biomedical Engineering and this in a close collaboration with the Medical faculties of both universities. As a result of recent evolutions towards internationalization, we also offer a complete English master program in biomedical engineering. Both the Dutch and English masters are two-year programs and lead to a joint degree from UGent and VUB. Students study either in Ghent or in Brussels upon their own choice.

Tackle complex problems in biology, medicine and health sciences

Biomedical Engineering is a branch of Engineering where students acquire knowledge and skills which can be applied to tackle complex problems in biology, medicine and health sciences. The biomedical engineer herein strives towards a solution in balance with technological, economical and ethical constraints.

Learning outcomes

Graduated students master the fundamentals of current biomedical engineering and have a thorough knowledge of the basic concepts and an overview of the main applications in various fields of biomedical engineering (medical imaging, medical signal processing, medical physics, medical device technology, tissue engineering, biomaterials...). The graduated student has acquired the necessary research skills which allow him or her to independently analyze and solve a problem, and recognizes the importance of permanent learning in a continuously evolving domain.

Work in multidsciplinary teams:
The biomedical engineer is trained to work in multidisciplinary teams (influx of students with different bachelor backgrounds, lecturers from various faculties and scientific domains, multi-disciplinary projects) and has the required communication skills.

Awareness of ethical and socio-medical aspects:
The biomedical engineer is aware of the ethical and socio-economic aspects of biomedical engineering and healthcare, and of the social responsibility of a master in engineering.

Career possibilities:
In this master's course, knowledge and skills in all fields in biomedical engineering will be given, so when you finished the Master's programme, you can be employed as generalist, and you will also be specialised in one particular field of biomedical engineering.

As a student, you are able to select any field within biomedical engineering. You will be trained to work in interdisciplinary project teams, composed of engineers and medical specialists. To prepare further for interdisciplinary teams, students and scholars are treated as equals. To train for working in a European setting, you will get knowledge in the health care situation in several countries in Europe, and you will be trained in cultural differences between European countries.

In summary, the goal of this course is to acquire the ability to:
- work in interdisciplinary (engineering – medical) teams
- work in international and thus intercultural (European) teams
- communicate effectively with experts in (bio)medicine and technology
- perform fundamental research in Biomedical Engineering.
- design innovative devices to improve diagnostics and treatment of patients
- follow a post-Master’s training in Biomedical Engineering
- perform a PhD study
- train continuously (life-long-learning)

Curriculum

Available on http://www.vub.ac.be/en/study/biomedical-engineering/programme

The programme consists of 120 credits, evenly distributed over 4 semesters of each 12 weeks. The specific part of the master involves six basic courses for a total of 30 credits (Quantitative cell biology, Modelling of Physiological Systems, From Genome to Organism, Biomechanics, Bio-electronics and Biomaterials) and 42 credits dedicated to specialist courses in biomedical engineering (Biomedical Imaging, Neuromodulation and Imaging, Medical Physics, Medical Equipment, Biomedical Product Development, Artificial Organs: Technology and Design, Health Care Organization and Informatics, Human and Environment, Safety and Regulations* and Seminars: Innovations in Biomedical Engineering). The programme is further complemented with a master thesis (24 credits) and elective courses for a total of 24 credits.

Internships and Project Work

Students are encouraged to do an internship with a company or hospital in Belgium or abroad during the summer holiday period. Internships can be valorised in the curriculum, with an internship of 4 weeks accounting for an elective course of 3 credits, and an internship of minimally 6 weeks accounting for 6 credits. A maximum of 6 credits is allowed. In addition, students can opt for the elective 3 credit course “Multidisciplinary Biomedical Project” during which they can work on an assignment or a project.

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What is the Master in Electronics and ICT Engineering Technology all about?. In this master's programme you learn to correctly assess the workings and impact of various electronic technologies. Read more

What is the Master in Electronics and ICT Engineering Technology all about?

In this master's programme you learn to correctly assess the workings and impact of various electronic technologies. You learn to design and implement existing analogue and digital electronic systems and leverage this knowledge to complex information and communication systems.

Intelligent Electronics option

Intelligent Electronics refers to the combination of hardware and software used to develop and implement so-called embedded systems (cell phones, MP3 players, digital cameras, etc.). You learn to take into consideration limitations in the areas of I/O possibilities, memory, speed and energy consumption.

Internet Computing option

Internet Computing follows the trend of a more broadly distributed approach to developing computer applications. The advantages to this are high reliability, scalability, high performance, easy maintenance, low cost price, etc. Examples of applications based on this approach include web-based and internet applications like search robots and voice-over IP, as well as e-commerce, enterprise resource management, and user applications in the area of info-/edu-/entertainment.

Add an in-company or project-based learning experience to your master's programme

You can augment your master's programme with the Postgraduate Programme Innovation and Entrepreneurship in Engineering. This programme is made up by a multifaceted learning experience in and with a company, with an innovative engineering challenge as the central assignment. It is carried out in a team setting, has a distinct international dimension, and usually requires a multidisciplinary approach. Entrepreneurs and students alike are encouraged to innovate, transfer knowledge and grow. It is a unique cross-fertilisation between company and classroom.

International Campus Group T

The Faculty of Engineering Technology maintains close ties with universities around the world. At Campus Group T, more than 20% of the engineering students are international students. They represent 65 different nationalities from all over the world. This international network extends not just to Europe, but also to China, Southeast Asia, India, Ethiopia and beyond.

Campus Group T is the only campus of the faculty who offers all the degree programmes in the business language par excellence: English. The language is ubiquitous both inside and outside the classroom. If you've mastered English, you feel right at home. And if you want to explore more of the world, you can do part of your training at a university outside Belgium as an exchange student.

Objectives

This master's programme brings students to the advanced level of knowledge and skills that is associated with scientific work in the broad sense, and more particularly to those areas of the engineering sciences that are related to electronics and IT/communications systems. This programme offers a broad academic training in the analysis, modelling and design of electronics and IT systems. The Electronics major focuses on the hardware of digital and analog systems. In the IT major, the emphasis is on computer systems, application software and communication networks.

Degree holders are able to apply the acquired scientific knowledge autonomously and in a broad social context. They possess the necessary organisational skills to hold executive positions.

Career paths

On completion of the programme, you will be an industrial engineer with a broad foundation of general skills and technical knowledge. At the same time, you will be familiar with the fascinating world of information processing, which plays a crucial role in many social sectors. Often, you will also play a key role in the development of a variety of digital media applications ranging from modern consumer products (positioning and navigation systems; smartphones; digital audio and video) to custom stand-alone or networked applications.



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The programme aims at preparing engineers to develop and use information technology tools so as to satisfy the widest variety of applications. Read more

Mission and Goals

The programme aims at preparing engineers to develop and use information technology tools so as to satisfy the widest variety of applications. Compared to the Bachelor of Science, Master of Science students acquire greater ability to model and solve complex problems, integrating different advanced skills and technologies. The programme comprises three tracks: Communication and Society Engineering, Sound and Music Engineering, Data Engineering.

The teaching language is English.

See the website http://www.polinternational.polimi.it/educational-offer/laurea-magistrale-equivalent-to-master-of-science-programmes/computer-science-and-engineering/computer-science-and-engineering-track-como/

Career Opportunities

The information technology engineer operates mainly in companies manufacturing and distributing information technology and robotics equipment and systems, companies providing products and services with a high information technology content, private organisations and public administration using information technology to plan, design, manage, decide, produce and administrate.

Presentation

See http://www.polinternational.polimi.it/uploads/media/Computer_science_and_engineering_CO_01.pdf
The Master of Science programme in Computer Science and Engineering aims at training engineers able to develop and use information technology tools so as to satisfy the widest variety of applications. Four tracks are available, corresponding to four main cultural areas. The “Communication and Society Engineering” track focuses on the integration of computer science and communication skills, for designing, implementing, presenting and evaluating innovative multimedia applications. The methodologies for the management of data, such as data mining, pattern recognition, information retrieval, constitute the core of the “Data Engineering” track. The “ICT Engineering, Business and Innovation” track aims at building professional profiles that combine a solid computer science background with managerial capabilities, through a selection of computer science and management courses, integrated with a broad cross-disciplinary project, carried out in collaboration with companies and Management Engineering students and professors. Finally, the “Sound and Music Engineering” track (in collaboration with the “Giuseppe Verdi” Music Conservatory of Como) focuses on the concepts and processes that are behind generation, analysis, manipulation/ processing, transport, access, coding and rendering of audio and musical signals. The programme is taught in English.

Subjects

Key subjects available:
Multimedia Interactive Applications for Web and Mobile Devices, Computer Graphics and Applications, Advanced Software Engineering, Advanced Computer Architectures, Performance Evaluation of Computer Systems, Multimedia Information Retrieval, Multimedia Signal Processing, Sound Analysis, Synthesis and Processing, Electronics and Electroacoustic.

See the website http://www.polinternational.polimi.it/educational-offer/laurea-magistrale-equivalent-to-master-of-science-programmes/computer-science-and-engineering/computer-science-and-engineering-track-como/

For contact information see here http://www.polinternational.polimi.it/educational-offer/laurea-magistrale-equivalent-to-master-of-science-programmes/computer-science-and-engineering/computer-science-and-engineering-track-como/

Find out how to apply here http://www.polinternational.polimi.it/how-to-apply/

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Do you want to lead society towards a more energy-efficient future, enhance your business acumen, and further develop your technical and design ability? The MEng course develops your communication and entrepreneurial skills, and prepares you for a range of high-end careers in electrical and electronic engineering. Read more
Do you want to lead society towards a more energy-efficient future, enhance your business acumen, and further develop your technical and design ability? The MEng course develops your communication and entrepreneurial skills, and prepares you for a range of high-end careers in electrical and electronic engineering. This course, which meets the full academic requirements for Chartered Engineer status, is accredited by The Institution of Engineering and Technology (IET).

You will develop highly practical skills and learn through doing. You'll access one of the largest undergraduate laboratory spaces in the country, which you can use to further your own understanding of communications, electronics and renewable energy technologies. You will benefit from free IET membership (whilst at University) as the University is an IET Academic Partner. You will further your knowledge with a placement after successfully completing year two.

Key features

-Benefit from outstanding teaching: in the 2016 National Student Survey 91 per cent of our final year students said that “The course is intellectually stimulating”.*
-Draw on our strong industry links and benefit from industry participation in course development, delivery and project sponsorship.
-Take part in our final year student project open day showcasing the excellence of the engineering skills development and the high levels of achievement of our undergraduates, with many industrially sponsored prizes awarded.
-Develop highly practical skills and learn through doing.
-Take advantage of our flexible course, allowing you to switch between electronics and robotics until your final year, as your interests develop.
-Immerse yourself in a degree accredited by the Institution for Engineering and Technology (IET) on behalf of the Engineering Council for the purposes of fully meeting the academic requirement for registration as a Chartered Engineer (CEng).
-Benefit from free IET membership (whilst at University) as the University is an IET Academic Partner.
-Joining our MEng course means working towards an honours degree that provides the shortest route to professional and chartered status.
-Challenge yourself. Final year MEng students work in groups to undertake a major design project that will give them the opportunity to experience a broad selection of strategic, ethical, environmental, management, operational, logistical, technical, financial, contractual and team-working challenges.
-Further your knowledge with a placement after successfully completing stage 2 or between the final two years of the MEng course.
-Receive an Apple iPad along with your core e-text books to support your learning.
-Access one of the largest undergraduate laboratory spaces in the country, which you can use to further your own understanding of communications, electronics and renewable energy technologies.

Course details

Year 1
In the first year you'll use our well-equipped laboratories to develop your knowledge and practical problem solving skills. From the start of your studies you'll find that there is an emphasis on learning by doing, and group project work will enable you to develop your problem solving and communication skills. An integrating project will encompass business and technical skills, and focus on activities that are typical of a start-up company.

Core modules
-ELEC143 Embedded Software in Context
-BPIE112 Stage 1 Electrical/Robotics Placement Preparation
-ELEC141 Analogue Electronics
-ELEC142 Digital Electronics
-ELEC144 Electrical Principles and Machines
-MATH187 Engineering Mathematics

Optional modules
-ELEC137PP Electronic Design and Build
-ROCO103PP Robot Design and Build

Year 2
You'll develop a greater understanding of underlying engineering principles and circuit design methods in the second year. Again, we place an emphasis on team work and you'll have the opportunity to do both group and individual presentations of your projects. You'll use industrial standard software tools for design and simulation in preparation for your final year individual project or for your optional placement year.

Core modules
-MATH237 Engineering Mathematics and Statistics
-BPIE212 Stage 2 Electrical/Robotics Placement Preparation
-ELEC239 Communication Systems
-ROCO218 Control Engineering
-ELEC237 Power Electronics and Generation
-ELEC240 Embedded Systems
-ELEC241 Real Time Systems

Optional placement year
You can enhance your studies with relevant experience by taking an optional placement year in the UK, France, Germany and Japan. Placements give you the opportunity to put theory into practice, and are excellent opportunity to seek final year sponsorship. Many of our graduates have been offered permanent jobs with their placement company.

Core modules
-BPIE332 Electrical Industrial Placement

Year 4
Year 3 (or Year 4 if you took an optional placement year) is an exciting opportunity to develop an individual project. You'll consolidate your knowledge, explore and evaluate new technologies, and demonstrate your communication skills in the oral and written presentation of your project. Previous project have included a landmine detection system, CreatoBot (a modular robotic system) and DishDynamics (Global Ordinance And Targeting System [GOATS]).

Core modules
-ELEC345 High Speed Communications
-ELEC347 Information and Communication Signal Processing
-ELEC349 Design and Control of Renewable Energy Technology
-PROJ324 Individual Project
-ELEC351 Advanced Embedded Programming

Final year
Your final year includes additional technical modules and a large interdisciplinary design project. Past projects have included designing a product that involved a local company and a central government department, the challenge was to build a prototype system, which was showcased at the Project Open Day. This project will most likely result in the formation of a real company (later in the year). You also have the possibility of continuing your studies to MSc level in the same academic year.

Core modules
-PROJ515 MEng Project
-ELEC512 Nanotechnology and Nanoelectronics
-ELEC518 Digital and Wireless Communications
-ELEC514 Advanced Power Systems

Every undergraduate taught course has a detailed programme specification document describing the course aims, the course structure, the teaching and learning methods, the learning outcomes and the rules of assessment.

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The near STEM route is for admission of mathematics, physics, astrophysics or other relevant first degree candidates and whose programme would have made extensive use of applied mathematics to design and explain engineering and/or scientific concepts. Read more
The near STEM route is for admission of mathematics, physics, astrophysics or other relevant first degree candidates and whose programme would have made extensive use of applied mathematics to design and explain engineering and/or scientific concepts. After accreditation of prior experiential learning (APEL) at Level 5, you will spend three semesters studying towards a General Engineering Transition Masters with the opportunity to specialise in the above options at Level 6 and/or 7.

The Electronics and Communications MScs are also accredited by the Institution of Engineering and Technology (IET) as meeting the academic requirements for Chartered Engineer status.

To obtain a Master's degree, you will need to complete an in-depth independent research project.

Courses

-MSc in Embedded Intelligent Systems
-MSc in Radio and Mobile Communication System
-MSc in Microelectronics and Computer Engineering
-MSc in Power Electronics and Control
-MSc in Mechatronics
-MSc in Communications and Information Engineering

Why choose this course?

The School has over 25 years' experience of teaching electronic engineering and has established an excellent international reputation in this field;We offer extensive lab facilities for engineering students, including the latest software packages;Study leading-edge applications such as biometric authentication and speech-based interaction.

Teaching methods

Our enthusiastic staff is always looking for new ways to enhance your learning experience and over recent years, we have won national awards for our innovative teaching ideas. In addition our staff are active in research and useful elements of it are reflected on the learning experience. Learning tools such as StudyNet, unique to the University of Hertfordshire, are extremely useful for the learning environment of the student.

Structure

Year 1
Core Modules
-Digital Design & Embedded Systems
-Digital Mobile Communication Systems
-Information Theory and DSP in Communications
-Operations Management
-Optical Communication Technologies
-Quality Reliability & Maintenance
-Sustainability and Smart Systems Engineering
-Wireless, Mobile and Ad-hoc Networking

Year 2
Core Modules
-Advanced Reconfigurable Systems and Applications
-Individual Masters Project
-Microelectronics and VLSI

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Ideal for you if you are a professional with a background in computer engineering, communication systems or electronic/electrical engineering, and provides you with the skills and knowledge needed to move into computer networking. Read more

Ideal for you if you are a professional with a background in computer engineering, communication systems or electronic/electrical engineering, and provides you with the skills and knowledge needed to move into computer networking. It is particularly useful for people working in companies that rely on constant innovation in electronics, computer engineering and communications.

Computer networks currently provide the infrastructure for most, businesses, educational institutions, retailers, manufacturers and public services. Many companies rely increasingly on computer and network engineering, which is now a global discipline.

This course is hardware and software based, and examines the design, specification, and integration of current and next generation computer and communications network technologies.

This course provides an opportunity for you to

  • increase the depth of your technical knowledge
  • develop your computer hardware and software skills
  • gain a thorough working knowledge of computer engineering
  • study the latest technologies used in modern day computer networking systems and their applications
  • gain the skills needed to design, develop and maintain computer network systems

You may wish to expand your current knowledge and expertise if you already have computer networking skills or possibly move into a new area of engineering and have the necessary entry requirements for this course.

Professional recognition

This programme is CEng accredited by the Institution of Engineering and Technology (IET) and fulfils the educational requirements for registration as a Chartered Engineer when presented with an CEng accredited Bachelors programme.

Course structure

Full time – September start – typically 12 or 18 months

Full time – January start – typically 12 or 18 months

Part time – September start – typically 36 months

Part time – January start – typically 36 months

The course is based around two main themes, communication and networks, and computer engineering. You study eight modules plus a major project.

Communications and network modules

At least three from

  • communication engineering
  • communication media
  • communication networks
  • network applications

Computer engineering modules

At least three from

  • microprocessor engineering
  • object-oriented methods
  • operating systems
  • software engineering

Option modules

Up to two from

  • applicable artificial intelligence
  • digital signal processing
  • embedded systems
  • mixed signal design
  • electrical energy systems
  • efficient machines and electromagnetic applications

Project (equivalent to four modules)

You undertake a major project under the supervision of a tutor.

Assessment

By final examination, coursework and project reports

Employability

Information technology, communications, computer networks and electronics are among some of the fastest growing areas of the economy. By completing this course, you gain a thorough understanding of computer networking systems with the knowledge and expertise to enable you to apply your skills within many areas of industry, or take up a position in higher education or research.



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