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The Masters of Engineering (M.Eng.) program is suited to students who wish to pursue their electrical and computer engineering education beyond the undergraduate level but do not wish to pursue a thesis based research program. Read more
The Masters of Engineering (M.Eng.) program is suited to students who wish to pursue their electrical and computer engineering education beyond the undergraduate level but do not wish to pursue a thesis based research program. The program requires students to complete 30 credits of course work with the option of completing a supervised project.

The typical completion time for the M.Eng. is 12-16 months, if pursued on a full-time basis. M.Eng. degree candidates registered as full-time students are required to spend at least one winter session at the University. Candidates can also complete the M.Eng. on a part-time basis. In either case the program must be completed within 5 years of initial registration. Course selection must also be approved by their Graduate Supervisor.

A M.Eng. candidate may write an engineering report based on an appropriate engineering project in the candidate's chosen area of specialization, in lieu of 6 credits of course work. The subject of the report should be agreed upon between the candidate and the Graduate Supervisor.

The M.Eng. program is administered by the Faculty of Applied Science, rather than the Faculty of Graduate Studies. Financial aid is generally not available to M.Eng. students and tuition fees are higher than for the M.A.Sc.

Quick Facts

- Degree: Master of Engineering
- Specialization: Electrical and Computer Engineering
- Subject: Engineering
- Mode of delivery: On campus
- Program components: Coursework only
- Faculty: Faculty of Applied Science

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The Computer Animation Master’s programme at Kent is oriented towards current industrial needs, technology and practice. It is designed to be a direct route into this high-profile, modern and creative industry, and has been developed jointly by the School and our industrial partner Framestore CFC. Read more
The Computer Animation Master’s programme at Kent is oriented towards current industrial needs, technology and practice. It is designed to be a direct route into this high-profile, modern and creative industry, and has been developed jointly by the School and our industrial partner Framestore CFC.

Develop your knowledge and understanding of the animation process, software tools, techniques and packages, and the technical aspects of working in a professional animation environment. The MSc programme offers invaluable experience of working to professional briefs and under expert supervision of professional animators to prepare you for a career in industry.

Competition is fierce in animation and visual effects and success depends on your concentration levels, constant practise and ability to grasp the essence and modern techniques of animation. Successful former students are now working in animation and animation layout roles for companies such as Sony Games and Framestore CFC on major titles in games, television and film.

Visit the website https://www.kent.ac.uk/courses/postgraduate/248/computer-animation

About the School of Engineering and Digital Arts

The School of Engineering and Digital Arts successfully combines modern engineering and technology with the exciting field of digital media. The School, which was established over 40 years ago, has developed a top-quality teaching and research base, receiving excellent ratings in both research and teaching assessments.

The School undertakes high-quality research that has had significant national and international impact, and our spread of expertise allows us to respond rapidly to new developments. Our 30 academic staff and over 130 postgraduate students and research staff provide an ideal focus to effectively support a high level of research activity. We have a thriving student population studying for postgraduate degrees in a friendly, supportive teaching and research environment.

We have research funding from the Research Councils UK, European research programmes, a number of industrial and commercial companies and government agencies including the Ministry of Defence. Our Electronic Systems Design Centre and Digital Media Hub provide training and consultancy for a wide range of companies. Many of our research projects are collaborative, and we have well-developed links with institutions worldwide.

Course structure

This intensively taught postgraduate course lasts a full year. It takes place in a dedicated computer laboratory where you have your own seat and computer for the duration of the course. The course lectures and workshops, whether led by visiting professionals or staff, are all held in this room. Demonstrations and showing of films are by means of an HD projector. By the end of the year, the lab will be where you live as much as your accommodation.

Modules

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. Most programmes will require you to study a combination of compulsory and optional modules. You may also have the option to take modules from other programmes so that you may customise your programme and explore other subject areas that interest you.

EL831 - Digital Visual Art set-up (15 credits)
EL832 - Animation Principles (15 credits)
EL833 - Visual Training (15 credits)
EL837 - Professional Group Work (15 credits)
EL863 - Advanced 3D Modelling (15 credits)
EL864 - Pre-Visualisation (15 credits)
EL865 - Action in Animation (15 credits)
EL866 - Acting in Animation (15 credits)
EL830 - Computer Animation Project (60 credits)

Assessment

Each module is assessed by practical assignments. The project work is assessed on the outcome of the project itself.

Programme aims

This programme aims to:

- enable you to develop your knowledge and understanding within the field of 3D computer animation, which will equip you to become a professional in the animation and visual effects industry

- produce professionally-trained animators who are highly skilled in using state-of-the-art 3D animation software for producing animated films

- provide you with proper academic guidance and welfare support

- create an atmosphere of co-operation and partnership between staff and students, and offer you an environment where you can develop your potential

- strengthen and expand opportunities for industrial collaboration with the School of Engineering and Digital Arts.

Research areas

- Intelligent Interactions

The Intelligent Interactions group has interests in all aspects of information engineering and human-machine interactions. It was formed in 2014 by the merger of the Image and Information Research Group and the Digital Media Research Group.

The group has an international reputation for its work in a number of key application areas. These include: image processing and vision, pattern recognition, interaction design, social, ubiquitous and mobile computing with a range of applications in security and biometrics, healthcare, e-learning, computer games, digital film and animation.

- Social and Affective Computing
- Assistive Robotics and Human-Robot Interaction
- Brain-Computer Interfaces
- Mobile, Ubiquitous and Pervasive Computing
- Sensor Networks and Data Analytics
- Biometric and Forensic Technologies
- Behaviour Models for Security
- Distributed Systems Security (Cloud Computing, Internet of Things)
- Advanced Pattern Recognition (medical imaging, document and handwriting recognition, animal biometrics)
- Computer Animation, Game Design and Game Technologies
- Virtual and Augmented Reality
- Digital Arts, Virtual Narratives.

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.

The School of Engineering and Digital Arts (http://www.eda.kent.ac.uk/) has an excellent record of student employability (http://www.eda.kent.ac.uk/school/employability.aspx). We are committed to enhancing the employability of all our students, to equip you with the skills and knowledge to succeed in a competitive, fast-moving, knowledge-based economy.

Graduates who can show that they have developed transferable skills and valuable experience are better prepared to start their careers and are more attractive to potential employers.

Find out how to apply here - https://www.kent.ac.uk/courses/postgraduate/apply/

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UA’s Department of Electrical and Computer Engineering offers dynamic programs for students interested in a traditional electrical engineering degree or those who desire a specialization in computer engineering. Read more
UA’s Department of Electrical and Computer Engineering offers dynamic programs for students interested in a traditional electrical engineering degree or those who desire a specialization in computer engineering.

MISSION

UA’s Department of Electrical and Computer Engineering will

- provide high-quality and broad-based undergraduate and graduate education in electrical and computer engineering
- conduct high-quality research programs that will advance the state of knowledge
- contribute to the engineering profession and to society through service activities

Visit the website http://ece.eng.ua.edu/graduate/ms-program/

Master of Science–Thesis Option (PLAN I):

30 Credit Hours
A minimum of 24 credit hours of coursework is required. Constraints on these 24 hours shall include:
- A minimum of 12 hours of closely related Electrical and Computer Engineering (ECE) designated courses in the student’s area of concentration, as defined by the advisory committee.

- A minimum of 9 hours of courses in an elective area approved by the advisory committee.

- A minimum of 3 hours of Mathematics (MATH or GES) or Science (Physics, Chemistry, or Biology) courses at the 500 level or above.

- No more than 6 hours may be from courses at the 400 level. In order to receive degree credit, 400-level courses require written application and approval by the Graduate School (http://graduate.ua.edu/) prior to the semester in which any 400-level course is to be takentaken.

A minimum of 6 hours of thesis research (ECE 599) is required.

A student’s curriculum and thesis must be approved by the student’s graduate advisory committee. The student must pass a final comprehensive examination, which is typically a presentation and defense of the thesis. In addition, the student must satisfy all University requirements defined in the current edition of The University of Alabama Graduate Catalog (http://graduate.ua.edu/catalog/index.html).

[[Master of Science–Non-Thesis Option (PLAN II):]
30 Credit Hours
A minimum of 30 credit hours of coursework is required. Constraints on these 30 hours shall include:
- A minimum of 15 hours of closely related Electrical and Computer Engineering (ECE) designated courses in the student’s area of concentration, as defined by the advisory committee.

- A minimum of 12 hours of courses in an elective area approved by the advisory committee.

- A minimum of 3 hours of Mathematics (MATH or GES) or Science (Physics, Chemistry, or Biology) courses at the 500 level or above.

- No more than six (6) hours may be courses at the 400 level. In order to receive degree credit, 400-level courses require written application and approval by the Graduate School prior to the semester in which any 400-level course is to be taken taken.

A student’s curriculum must be approved by the student’s graduate advisory committee. The graduate advisory committee must also approve the submission of a manuscript, authored or co-authored by the candidate, to a refereed journal or conference proceeding. This publication submission shall constitute The University of Alabama Graduate School culminating experience requirement for an MS Plan II degree in electrical and computer engineering.

Find out how to apply here - http://graduate.ua.edu/prospects/application/

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Study the dynamic field of efficient information transfer around the globe. We teach this course jointly with the Department of Computer Science so you get up-to-date knowledge and understanding. Read more

About the course

Study the dynamic field of efficient information transfer around the globe. We teach this course jointly with the Department of Computer Science so you get up-to-date knowledge and understanding.

Our graduates are in demand

Many go to work in industry as engineers for large national and international companies, including ARUP, Ericsson Communications, HSBC, Rolls-Royce, Jaguar Land Rover and Intel Asia Pacific.

Real-world applications

This is a research environment. What we teach is based on the latest ideas. The work you do on your course is directly connected to real-world applications.

We work with government research laboratories, industrial companies and other prestigious universities. Significant funding from UK research councils, the European Union and industry means you have access to the best facilities.

How we teach

You’ll be taught by academics who are leaders in their field. The 2014 Research Excellence Framework (REF) puts us among the UK top five for this subject. Our courses are centred around finding solutions to problems, in lectures, seminars, exercises and through project work.

Accreditation

All of our MSc courses are accredited by the Institution of Engineering and Technology (IET), except the MSc(Eng) Advanced Electrical Machines, Power Electronics and Drives and MSc(Eng) Bioengineering: Imaging and Sensing. We are seeking accreditation for these courses.

First-class facilities

Semiconductor Materials and Devices

LED, laser photodetectors and transistor design, a high-tech field-emission gun transmission electron microscope (FEGTEM), a focused ion beam (FIB) milling facility, and electron beam lithographic equipment.

Our state-of-the-art semiconductor growth and processing equipment is housed in an extensive clean room complex as part of the EPSRC’s National Centre for III-V Technologies.

Our investment in semiconductor research equipment in the last 12 months totals £6million.

Electrical Machines and Drives

Specialist facilities for the design and manufacture of electromagnetic machines, dynamometer test cells, a high-speed motor test pit, environmental test chambers, electronic packaging and EMC testing facilities, Rolls-Royce University Technology Centre for Advanced Electrical Machines and Drives.

Communications

Advanced anechoic chambers for antenna design and materials characterisation, a lab for calibrated RF dosimetry of tissue to assess pathogenic effects of electromagnetic radiation from mobile phones, extensive CAD electromagnetic analysis tools.

Core modules

Network and Inter-Network Architectures; Network Performance Analysis; Data Coding Techniques for Communications and Storage; Advanced Communication Principles; Mobile Networks and Physical Layer Protocols; (either) Foundations of Object-Orientated Programming (or) Object-Orientated Programming and Software Design; Major Research Project.

Examples of optional modules

Computer Security and Forensics; 3D Computer Graphics; Software Development for Mobile Devices; Cloud Computing; Advanced Signal Processing; Antennas, Propagation and Satellite Systems; Optical Communication Devices and Systems; Computer Vision; Broadband Wireless Techniques; Wireless Packet Data Networks and Protocols; System Design.

Teaching and assessment

We deliver research-led teaching from our department and Computer Science with individual support for your research project and dissertation. Assessment is by examinations, coursework and a project dissertation with poster presentation.

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The Advanced Computer Science (Computational Intelligence) MSc programme combines a wide choice of advanced topics in computer science with specialist modules relating to computational intelligence, including logic-based, connectionist and evolutionary artificial intelligence, inspirations from the natural world, practical applications and the philosophy of machine reasoning. Read more
The Advanced Computer Science (Computational Intelligence) MSc programme combines a wide choice of advanced topics in computer science with specialist modules relating to computational intelligence, including logic-based, connectionist and evolutionary artificial intelligence, inspirations from the natural world, practical applications and the philosophy of machine reasoning.

While studying a taught Master’s programme at the School of Computing, you can gain work experience through our industrial placement scheme or with the Kent IT Consultancy (KITC), which provides a project-based consultancy service to businesses in the region. We have strong links with industry including Cisco, IBM, Microsoft and Oracle and are among the top ten in the UK for graduate employment prospects.

The programme is aimed at graduates considering a career in research and development. It would also provide an excellent foundation for PhD study.

This programme is available with an optional industrial placement.

Visit the website https://www.kent.ac.uk/courses/postgraduate/249/advanced-computer-science-computational-intelligence

About the School of Computing

Our world-leading researchers, in key areas such as systems security, programming languages, communications, computational intelligence and memory management, and in interdisciplinary work with biosciences and psychology, earned us an outstanding result in the most recent national research assessment.

In addition, two of our staff have been honoured as Distinguished Scientists by the ACM and we have also held Royal Society Industrial Fellowships.

As an internationally recognised Centre of Excellence for programming education, the School of Computing is a leader in computer science teaching. Two of our staff have received the ACM SIGCSE Award for Outstanding Contribution to Computer Science Education. We are also home to two National Teaching Fellows, to authors of widely used textbooks and to award-winning teaching systems such as BlueJ.

Modules

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. Most programmes will require you to study a combination of compulsory and optional modules. You may also have the option to take modules from other programmes so that you may customise your programme and explore other subject areas that interest you.

CO885 - Project Research (15 credits)
CO880 - Project and Dissertation (60 credits)
CO881 - Object-Oriented Programming (15 credits)
CO871 - Advanced Java for Programmers (15 credits)
CO832 - Data Mining and Knowledge Discovery (15 credits)
CO836 - Cognitive Neural Networks (15 credits)
CO837 - Natural Computation (15 credits)
CO884 - Logic and Logic Programming (15 credits)
CO838 - Internet of Things and Mobile Devices (15 credits)
CO841 - Computing Law, Contracts and Professional Responsibility (15 credits)
CO846 - Cloud Computing (15 credits)
CO847 - Green Computing (15 credits)
CO528 - Introduction to Intelligent Systems (15 credits)
CO545 - Functional and Concurrent Programming (15 credits)
CO641 - Computer Graphics and Animation (15 credits)
CO645 - IT Consultancy Practice 2 (15 credits)
CO834 - Trust, Security and Privacy Management (15 credits)
CO874 - Networks and Network Security (15 credits)
CO876 - Computer Security (15 credits)
CO889 - C++ Programming (15 credits)
CO890 - Concurrency and Parallelism (15 credits)
CO892 - Advanced Network Security (15 credits)
CO894 - Development Frameworks (15 credits)
CO899 - System Security (15 credits)
PL583 - Philosophy of Cognitive Science and Artificial Intelligence (30 credits)

Assessment

Assessment is through a mixture of written examinations and coursework, the relative weights of which vary according to the nature of the module. The final project is assessed by a dissertation, except for the MSc in IT Consultancy for which the practical consultancy work is assessed through a series of reports covering each of the projects undertaken.

Programme aims

This programme aims to:

- enhance the career prospects of graduates seeking employment in the computing/IT sector

- prepare you for research and/or professional practice at the forefront of the discipline

- develop an integrated and critically aware understanding of one or more areas of computing/IT and their applications (according to your degree title)

- develop a variety of advanced intellectual and transferable skills

- equip you with the lifelong learning skills necessary to keep abreast of future developments in the field.

Careers

Students can gain practical work experience as part of their degree through our industrial placements scheme and Kent IT Consultancy. Both of these opportunities consolidate academic skills with real world experience, giving our graduates a significant advantage in the jobs market.

Our graduates go on to work for leading companies including Cisco, GlaxoSmithKline, IBM, Intel, Lilly, Microsoft, Morgan Stanley, Thomson Reuters and T-Mobile. Many have gone on to develop their careers as project leaders and managers.

Find out how to apply here - https://www.kent.ac.uk/courses/postgraduate/apply/

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Accredited by the British Computer Society. We teach you how to build robust, effective software systems, and how to critique and evaluate the latest software engineering techniques. Read more

About the course

Accredited by the British Computer Society

We teach you how to build robust, effective software systems, and how to critique and evaluate the latest software engineering techniques. Through project work, you’ll learn how to apply your knowledge in the real world.

Genesys: learning on the job

Genesys Solutions is unique: an IT company run by students, with its own premises next to the department. As a student on this course you can join the company to work on software projects for real clients in a real business environment.

Prepare for your career

Our courses give you experience of how real-world projects work. We consult with big employers to ensure that you develop the skills and the personal qualities they’re looking for.

You’ll learn about the issues that matter in global business and industry. Our graduates go into academic and industrial research, the software industry, banking and finance. They work for companies such as Logica, IBM, Hewlett Packard, PWC, Vodafone, the BBC and HSBC.

About us

Our challenge is to use computation to understand all kinds of systems: computer systems, living systems and cognitive systems. Our research areas include robotics, machine learning, speech and language processing, virtual reality, computational systems biology and software verification and testing. It’s work that makes a difference to people’s lives.

Network and hardware

We have our own high-performance network so you can access our advanced computing facilities. There are labs for teaching smaller groups, wi-fi coverage throughout the department, and you can connect your own laptop to the network. Mobile devices and tablets are available for you to borrow for project work.

We also use specialised equipment: an immersive virtual reality facility, robotics hardware and an acoustic booth for speech processing research.

Core modules

Object-Oriented Programming and Software Design; Research Methods and Professional Issues; Dissertation Project; Testing and Verification in Safety-Critical Systems.

Examples of optional modules

Text Processing; Modelling and Simulation of Natural Systems; Speech Processing; Theory of Distributed Systems; 3D Computer Graphics; Computer Security and Forensics; Intelligent Web; Machine Learning and Adaptive Intelligence; Software and Hardware Verification; Software Development for Mobile Devices; Speech Technology; Virtual Environments and Computer Games Technology; Natural Language Processing; Java E-Commerce; Network Performance Analysis; Genesys Solutions (Software House) modules.

Teaching and assessment

We use lectures, tutorials and group work. You can also learn on the job in our student- run software engineering and consultancy business, Genesys Solutions. Assessment is by formal examinations, coursework assignments and a dissertation.

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This flexible course offers a largely free choice of modules from our range of Advanced Master's programmes. It is likely to appeal to computing graduates whose interests span more than one specialism and/or those seeking the freedom to explore a variety of advanced topics. Read more
This flexible course offers a largely free choice of modules from our range of Advanced Master's programmes.

It is likely to appeal to computing graduates whose interests span more than one specialism and/or those seeking the freedom to explore a variety of advanced topics. Depending on the options chosen, this course can serve as a springboard for employment or research.

This programme is available with an optional industrial placement. The course duration varies depending on the options taken.

Visit the website https://www.kent.ac.uk/courses/postgraduate/246/advanced-computer-science

About the School of Computing

Our world-leading researchers, in key areas such as systems security, programming languages, communications, computational intelligence and memory management, and in interdisciplinary work with biosciences and psychology, earned us an outstanding result in the most recent national research assessment.

In addition, two of our staff have been honoured as Distinguished Scientists by the ACM and we have also held Royal Society Industry Fellowships.

As an internationally recognised Centre of Excellence for programming education, the School of Computing is a leader in computer science teaching. Two of our staff have received the ACM SIGCSE Award for Outstanding Contribution to Computer Science Education. We are also home to two National Teaching Fellows, to authors of widely used textbooks and to award-winning teaching systems such as BlueJ.

Modules

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. Most programmes will require you to study a combination of compulsory and optional modules. You may also have the option to take modules from other programmes so that you may customise your programme and explore other subject areas that interest you.

CO880 - Project and Dissertation (60 credits)
CO885 - Project Research (15 credits)
CO881 - Object-Oriented Programming (15 credits)
CO871 - Advanced Java for Programmers (15 credits)
CO874 - Networks and Network Security (15 credits)
CO876 - Computer Security (15 credits)
CO846 - Cloud Computing (15 credits)
CO882 - Advanced Object-Oriented Programming (15 credits)
CO836 - Cognitive Neural Networks (15 credits)
CO837 - Natural Computation (15 credits)
CO889 - C++ Programming (15 credits)
CO894 - Development Frameworks (15 credits)
CO899 - System Security (15 credits)
CO890 - Concurrency and Parallelism (15 credits)
CO892 - Advanced Network Security (15 credits)
CO838 - Internet of Things and Mobile Devices (15 credits)
CO841 - Computing Law, Contracts and Professional Responsibility (15 credits)
CO528 - Introduction to Intelligent Systems (15 credits)
CO545 - Functional and Concurrent Programming (15 credits)
CO641 - Computer Graphics and Animation (15 credits)
CO645 - IT Consultancy Practice 2 (15 credits)
CO832 - Data Mining and Knowledge Discovery (15 credits)
CO834 - Trust, Security and Privacy Management (15 credits)
CO884 - Logic and Logic Programming (15 credits)
CO847 - Green Computing (15 credits)

Assessment

Assessment is through a mixture of written examinations and coursework, the relative weights of which vary according to the nature of the module. The final project is assessed by a dissertation.

Programme aims

This programme aims to:

- enhance the career prospects of graduates seeking employment in the computing/IT sector

- prepare you for research and/or professional practice at the forefront of the discipline

- develop an integrated and critically aware understanding of one or more areas of computing/IT and their applications (according to your degree title)

- develop a variety of advanced intellectual and transferable skills

- equip you with the lifelong learning skills necessary to keep abreast of future developments in the field.

Careers

Students can gain practical work experience as part of their degree through our industrial placements scheme and KITC (see above). Both of these opportunities consolidate academic skills with real world experience, giving our graduates a significant advantage in the jobs market. Our graduates go on to work for leading companies including Cisco, GlaxoSmithKline, IBM, Intel, Lilly, Microsoft, Morgan Stanley, Thomson Reuters and T-Mobile. Many have gone on to develop their careers as project leaders and managers.

Find out how to apply here - https://www.kent.ac.uk/courses/postgraduate/apply/

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The Master of Science in Software Engineering degree at Maynooth University exposes graduates in Computer Science and related disciplines to the many facets of this complex area – the technical, the methodological, the organizational – so that successful participants will subsequently be able to lead major projects in software engineering in many industrial and commercial sectors. Read more

Overview

The Master of Science in Software Engineering degree at Maynooth University exposes graduates in Computer Science and related disciplines to the many facets of this complex area – the technical, the methodological, the organizational – so that successful participants will subsequently be able to lead major projects in software engineering in many industrial and commercial sectors.

Course Structure

Each module is delivered as a series of intensive lectures. Each module also has associated practical work.

Participants submit a dissertation based on a Software Engineering topic. They also complete a work placement in industry (normally with a salary) organised by the University Placement Office.

Course Duration: 2 years overall (1 year full-time taught modules. 6 months dissertation. 6 months work placement)

Career Options

Students are qualified for many jobs in the software industry. Many students gain full-time employment with the company who sponsor their work placement. Past graduates in the Masters programme have been accepted for membership of the IEI. Associate membership (AIEI) has been granted to those graduates with less than 2 years work experience, with Ordinary membership (MIEI) granted after a minimum of 2 full years work experience.

Find out how to apply here https://www.maynoothuniversity.ie/computer-science/our-courses/msc-computer-science-software-eng#tabs-apply

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

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The School of Computing welcomes applications for our Computer Science research programmes. Your research should produce an original contribution in your chosen field of study. Read more
The School of Computing welcomes applications for our Computer Science research programmes.

Your research should produce an original contribution in your chosen field of study. You work closely with your supervisor, a member of academic staff, who is your principal source of support. If you choose a research area that has interdisciplinary aspects, you may have more than one supervisor. In addition to regular supervision, you will be supported by a supervisory panel of three academic staff who provide further structured input and guidance.

Visit the website https://www.kent.ac.uk/courses/postgraduate/283/computer-science

Supporting your research

We offer an extensive support framework to all our research students. We support you in becoming an effective researcher through a series of weekly workshops taken in the first year. These cover research-specific subjects including how to access journals and review research publications, how to write and publish academic articles and how to present your work at seminars and conferences. You may also attend workshops on key transferable skills including communication, time management and teamwork.

You join one or more of our well-integrated, active research groups where you will be able to test and discuss your ideas and place your research in a broader context.

We host a seminar series for visiting speakers as well as holding regular seminars within our research groups where research students are encouraged to participate. We also host an annual postgraduate conference where you have the opportunity to both present your work and to gain experience as a conference organiser.

Many of our research students earn money by teaching on our undergraduate programmes. We provide teaching development courses in your first year to give you the skills to teach effectively.

About the School of Computing

Our world-leading researchers, in key areas such as systems security, programming languages, communications, computational intelligence and memory management, and in interdisciplinary work with biosciences and psychology, earned us an outstanding result in the most recent national research assessment.

In addition, two of our staff have been honoured as Distinguished Scientists by the ACM and we have also held Royal Society Industrial Fellowships.

As an internationally recognised Centre of Excellence for programming education, the School of Computing is a leader in computer science teaching. Two of our staff have received the ACM SIGCSE Award for Outstanding Contribution to Computer Science Education. We are also home to two National Teaching Fellows, to authors of widely used textbooks and to award-winning teaching systems such as BlueJ.

We have strong links with industry including Cisco, IBM, Microsoft and Oracle and are among the top ten in the UK for graduate employment prospects.

Careers

Students can gain practical work experience as part of their degree through our industrial placements scheme and KITC (see above). Both of these opportunities consolidate academic skills with real world experience, giving our graduates a significant advantage in the jobs market. Our graduates go on to work for leading companies including Cisco, GlaxoSmithKline, IBM, Intel, Lilly, Microsoft, Morgan Stanley, Thomson Reuters and T-Mobile. Many have gone on to develop their careers as project leaders and managers.

Find out how to apply here - https://www.kent.ac.uk/courses/postgraduate/apply/

This can be studied at the Canterbury or Medway Campus

- https://www.kent.ac.uk/locations/medway/

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Electronic and Electrical Engineering is a broad and rapidly-expanding set of disciplines. Read more

About the course

Electronic and Electrical Engineering is a broad and rapidly-expanding set of disciplines. Building on core teaching in electrical machines, electronic materials, and the way that electronic circuits interact, this course will allow you to choose from a wide range of optional modules from all our active research areas to tailor your learning in a way that meets with your requirements.

Our graduates are in demand

Many go to work in industry as engineers for large national and international companies, including ARUP, Ericsson Communications, HSBC, Rolls-Royce, Jaguar Land Rover and Intel Asia Pacific.

Real-world applications

This is a research environment. What we teach is based on the latest ideas. The work you do on your course is directly connected to real-world applications.

We work with government research laboratories, industrial companies and other prestigious universities. Significant funding from UK research councils, the European Union and industry means you have access to the best facilities.

How we teach

You’ll be taught by academics who are leaders in their field. The 2014 Research Excellence Framework (REF) puts us among the UK top five for this subject. Our courses are centred around finding solutions to problems, in lectures, seminars, exercises and through project work.

Accreditation

All of our MSc courses are accredited by the Institution of Engineering and Technology (IET), except the MSc(Eng) Advanced Electrical Machines, Power Electronics and Drives and MSc(Eng) Bioengineering: Imaging and Sensing. We are seeking accreditation for these courses.

First-class facilities

Semiconductor Materials and Devices

LED, laser photodetectors and transistor design, a high-tech field-emission gun transmission electron microscope (FEGTEM), a focused ion beam (FIB) milling facility, and electron beam lithographic equipment.

Our state-of-the-art semiconductor growth and processing equipment is housed in an extensive clean room complex as part of the EPSRC’s National Centre for III-V Technologies.

Our investment in semiconductor research equipment in the last 12 months totals £6million.

Electrical Machines and Drives

Specialist facilities for the design and manufacture of electromagnetic machines, dynamometer test cells, a high-speed motor test pit, environmental test chambers, electronic packaging and EMC testing facilities, Rolls-Royce University Technology Centre for Advanced Electrical Machines and Drives.

Communications

Advanced anechoic chambers for antenna design and materials characterisation, a lab for calibrated RF dosimetry of tissue to assess pathogenic effects of electromagnetic radiation from mobile phones, extensive CAD electromagnetic analysis tools.

Core modules

Major Research Project.

Examples of optional modules

AC Machines; Advanced Control of Electric Devices; Energy Storage Management; Motion Control and Servo Drives; Permanent Magnet Machines and Actuators; Power Electronic Converters; Power Semiconductor Devices; Advanced Computer Systems; Advanced Integrated Electronics; Advanced Signal Processing; Semiconductor Materials; Principles of Semiconductor Device Technology; Packaging and Reliability of Microsystems; Nanoscale Electronic Devices; Energy Efficient Semiconductor Devices; Optical Communication Devices and Systems; Computer Vision; Electronic Communication Technologies; Data Coding Techniques for Communications and Storage; Principles of Communications; Antennas, Propagation and Satellite Systems; Mobile Networks and Physical Layer Protocols; System Design; Broadband Wireless Techniques; Wireless Packet Data Networks and Protocols.

Teaching and assessment

We deliver research-led teaching with individual support for your research project and dissertation. Assessment is by examinations, coursework and a project dissertation with poster presentation.

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Study the key design aspects of a modern wireless communication system, in particular cellular mobile radio systems. There is a current shortage of communications engineers with a comprehensive appreciation of wireless system design from RF through baseband to packet protocols. Read more

About the course

Study the key design aspects of a modern wireless communication system, in particular cellular mobile radio systems. There is a current shortage of communications engineers with a comprehensive appreciation of wireless system design from RF through baseband to packet protocols.

Our graduates are in demand

Many go to work in industry as engineers for large national and international companies, including ARUP, Ericsson Communications, HSBC, Rolls-Royce, Jaguar Land Rover and Intel Asia Pacific.

Real-world applications

This is a research environment. What we teach is based on the latest ideas. The work you do on your course is directly connected to real-world applications.

We work with government research laboratories, industrial companies and other prestigious universities. Significant funding from UK research councils, the European Union and industry means you have access to the best facilities.

How we teach

You’ll be taught by academics who are leaders in their field. The 2014 Research Excellence Framework (REF) puts us among the UK top five for this subject. Our courses are centred around finding solutions to problems, in lectures, seminars, exercises and through project work.

Accreditation

All of our MSc courses are accredited by the Institution of Engineering and Technology (IET), except the MSc(Eng) Advanced Electrical Machines, Power Electronics and Drives and MSc(Eng) Bioengineering: Imaging and Sensing. We are seeking accreditation for these courses.

First-class facilities

Semiconductor Materials and Devices
LED, laser photodetectors and transistor design, a high-tech field-emission gun transmission electron microscope (FEGTEM), a focused ion beam (FIB) milling facility, and electron beam lithographic equipment.

Our state-of-the-art semiconductor growth and processing equipment is housed in an extensive clean room complex as part of the EPSRC’s National Centre for III-V Technologies.

Our investment in semiconductor research equipment in the last 12 months totals £6million.

Electrical Machines and Drives

Specialist facilities for the design and manufacture of electromagnetic machines, dynamometer test cells, a high-speed motor test pit, environmental test chambers, electronic packaging and EMC testing facilities, Rolls-Royce University Technology Centre for Advanced Electrical Machines and Drives.

Communications

Advanced anechoic chambers for antenna design and materials characterisation, a lab for calibrated RF dosimetry of tissue to assess pathogenic effects of electromagnetic radiation from mobile phones, extensive CAD electromagnetic analysis tools.

Core modules

Advanced Signal Processing; Advanced Communication Principles; Antennas, Propagation and Satellite Systems; Mobile Networks and Physical Layer Protocols; Broadband Wireless Techniques; Wireless Packet Data Networks and Protocols; Major Research Project.

Examples of optional modules

Data Coding Techniques for Communication and Storage; Optical Communication Devices and Systems; Computer Vision; Electronic Communication Technologies; Data Coding Techniques for Communication and Storage.

Teaching and assessment

Research-led teaching and an individual research project. Assessment is by examinations, coursework and a project dissertation with poster presentation.

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Accredited by the the Institution of Chemical Engineers. Whether you’re already working in the field or just starting out, this course will deepen your understanding and equip you with skills and expertise in process safety, loss prevention and risk assessment. Read more

About the course

Accredited by the the Institution of Chemical Engineers

Whether you’re already working in the field or just starting out, this course will deepen your understanding and equip you with skills and expertise in process safety, loss prevention and risk assessment. You’ll be ready for a career in the oil and gas, chemical, nuclear and pharmaceutical industries, or with any of the consultancies that service them.

Take advantage of our expertise

Our teaching is grounded in specialist research expertise. Our reputation for innovation secures funding from industry,
UK research councils, the government and the EU. Industry partners, large and small, benefit from our groundbreaking work addressing global challenges.

You’ll have access to top facilities, including modern social spaces, purpose-built labs, the Harpur Hill Research Station for large-scale work, extensive computing facilities and a modern applied science library. There are high-quality research facilities for sustainable energy processes, safety and risk engineering, carbon capture and utilisation, and biological processes and biomanufacturing.

Studentships

Contact us for current information on available scholarships.

Course content

Diploma: three core modules and five optional modules. MSc(Eng): one core module, major research project, and five optional modules.

Core modules

Process Safety Management and Loss Prevention
Introduction to Hazard Analysis and Risk Assessment
Hazards in Process Plant Design and Operation
Dissertation (for MSc)

Examples of optional modules

Process Plant Reliability and Maintainability
Human Error and Human Behaviour
Applied Hazard and Operability Studies (HAZOP)
Safety in Nuclear Operations
Computer Control: Safe Practice
Process Safety in the Oil and Gas Industry
Process Safety in the Pharmaceutical, Food and Consumer Products

Full-time or part-time

This course is available full-time over a year, or part-time over two or three years. Each module can be taken as a short course – useful if you’re already working in industry.

Part-time students need to complete all modules within two years. You can take an extra third year to complete your dissertation if you need to – we won’t charge fees for that year. Modules are delivered about once per month from September to June. Each module is four days long. You must therefore attend for 32 days in total.

Teaching and assessment

We use a mixture of lessons and discussions, real-life case studies, workshops and hands-on computer sessions. Continuous assessment is based on assignments for each module, and a dissertation.

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Please visit http://www.ece.ubc.ca/admissions/graduate/apply. - Degree. Master of Applied Science. - Specialization. Electrical and Computer Engineering. Read more
Please visit http://www.ece.ubc.ca/admissions/graduate/apply

Quick Facts

- Degree: Master of Applied Science
- Specialization: Electrical and Computer Engineering
- Subject: Engineering
- Mode of delivery: On campus
- Program components: Coursework + Thesis required
- Faculty: Faculty of Applied Science

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On this well-established MSc programme you willdevelop advanced knowledge and skills in key aspects of telecommunications and wireless systems. Read more
On this well-established MSc programme you willdevelop advanced knowledge and skills in key aspects of telecommunications and wireless systems.

The course content is updated annually to maintain industry relevance and to reflect the latest developments in the industry.

We cover the following core (compulsory) topics during the MSc:

- Embedded computer systems
- Digital system design
- IC design
- Microprocess systems
- Research skills and project management.

Part-time study is in co-operation with the students’ employers. Please contact the Programme Director before applying.

Projects

Your project work will earn you 60 credits towards your MSc degree. The project's examined by oral presentation and dissertation.

In your work you'll need to demonstrate an in-depth understanding of your topic, mastery of research techniques, and the ability to analyse assembled data and assess outcomes.

Why Electrical Engineering and Electronics?

World-class facilities, including top industry standard laboratories

We have specialist facilities for processing semiconductor devices, optical imaging spectroscopy and sensing, technological plasmas, equipment for testing switch gear, specialist robot laboratories, clean room laboratories, e-automation, RF Engineering, bio-nano engineering labs and excellent mechanical and electrical workshops.

A leading centre for electrical and electronic engineering expertise

We are closely involved with over 50 prominent companies and research organisations worldwide, many of which not only fund and collaborate with us but also make a vital contribution to developing our students.

Career prospects

Our postgraduate students get to be a part of the cutting edge research projects being undertaken by our academic staff.

Here are some of the areas these projects cover:-

Molecular and semiconductor integrated circuit electronics
Technological plasmas
Communications
Digital signal processing
Optoelectronics
Nanotechnology
Robotics
Free electron lasers
Power electronics
Energy efficient systems
E-Automation
Intelligence engineering.

You'll get plenty of industry exposure too. Our industrial partners include ARM Holdings Plc, a top 200 UK company that specialises in microprocessor design and development.

As a result our postgraduates have an impressive record of securing employment after graduation in a wide range of careers not limited to engineering.

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The world demand for energy, in particular electricity, will increase significantly over the next decade and beyond. There are many challenges to be addressed in order to meet this ever-increasing demand, electrical and electronic engineers will provide key solutions to these problems. Read more
The world demand for energy, in particular electricity, will increase significantly over the next decade and beyond. There are many challenges to be addressed in order to meet this ever-increasing demand, electrical and electronic engineers will provide key solutions to these problems.

There are tremendous opportunities for us to make a significant impact that will shape the future, and this programme has been carefully designed and developed for this.

Our degree programmes are developed with industry partners to provide you with a career focused degree.

This programme provides you with an in-depth knowledge of the electrical power generation, transmission, distribution and networks. The operating principles, monitoring, optimisation and control of modern power systems are discussed in detail.

The environmental challenges, renewable energy generation, smart grid, high voltage power engineering and research and management skills are also addressed in this one-year programme. In addition, site visit and practical sessions are included. The programme has been carefully developed for graduates with electrical/electronic or related backgrounds to meet the increasing demand from the energy and power industry.

Projects

Project work contributes 60 credits, which will be based on a topic of industrial or scientific relevance, and will be carried out in laboratories in the University or at an approved placement in industry. The project is examined by oral presentation and dissertation, and award of the MSc (Eng) degree will require evidence of in-depth understanding, mastery of research techniques, ability to analyse assembled data, and assessment of outcomes.

Why Electrical Engineering and Electronics?

World-class facilities, including top industry standard laboratories

We have specialist facilities for processing semiconductor devices, optical imaging spectroscopy and sensing, technological plasmas, equipment for testing switch gear, specialist robot laboratories, clean room laboratories, e-automation, RF Engineering, bio-nano engineering labs and excellent mechanical and electrical workshops.

A leading centre for electrical and electronic engineering expertise

We are closely involved with over 50 prominent companies and research organisations worldwide, many of which not only fund and collaborate with us but also make a vital contribution to developing our students.

Career prospects

Our postgraduate students get to be a part of the cutting edge research projects being undertaken by our academic staff.

Here are some of the areas these projects cover:-

Molecular and semiconductor integrated circuit electronics
Technological plasmas
Communications
Digital signal processing
Optoelectronics
Nanotechnology
Robotics
Free electron lasers
Power electronics
Energy efficient systems
E-Automation
Intelligence engineering.

You'll get plenty of industry exposure too. Our industrial partners include ARM Holdings Plc, a top 200 UK company that specialises in microprocessor design and development.

As a result our postgraduates have an impressive record of securing employment after graduation in a wide range of careers not limited to engineering.

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