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If you are intrigued by the acquisition, processing, analysis and understanding of computer vision, this Masters is for you. The programme is offered by Surrey's Department of Electrical and Electronic Engineering, recognised for world-leading research in multimedia signal processing and machine learning. Read more
If you are intrigued by the acquisition, processing, analysis and understanding of computer vision, this Masters is for you.

The programme is offered by Surrey's Department of Electrical and Electronic Engineering, recognised for world-leading research in multimedia signal processing and machine learning.

PROGRAMME OVERVIEW

This degree provides in-depth training for students interested in a career in industry or in research-oriented institutions focused on image and video analysis, and deep learning.

State-of-the-art computer-vision and machine-learning approaches for image and video analysis are covered in the course, as well as low-level image processing methods.

Students also have the chance to substantially expand their programming skills through projects they undertake.

PROGRAMME STRUCTURE

This programme is studied full-time over 12 months and part-time over 48 months. It consists of eight taught modules and a standard project.

The following modules are indicative, reflecting the information available at the time of publication. Please note that not all modules described are compulsory and may be subject to teaching availability and/or student demand.
-Digital Signal Processing A
-Object Oriented Design and C++
-Image Processing and Vision
-Space Robotics and Autonomy
-Satellite Remote Sensing
-Computer Vision and Pattern Recognition
-AI and AI Programming
-Advanced Signal Processing
-Image and Video Compression
-Standard Project

EDUCATIONAL AIMS OF THE PROGRAMME

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

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

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

Technical characteristics of the pathway
This programme in Computer Vision, Robotics and Machine Learning aims to provide a high-quality advanced training in aspects of computer vision for extracting information from image and video content or enhancing its visual quality using machine learning codes.

Computer vision technology uses sophisticated signal processing and data analysis methods to support access to visual information, whether it is for business, security, personal use or entertainment. The core modules cover the fundamentals of how to represent image and video information digitally, including processing, filtering and feature extraction techniques.

An important aspect of the programme is the software implementation of such processes. Students will be able to tailor their learning experience through selection of elective modules to suit their career aspirations.

Key to the programme is cross-linking between core methods and systems for image and video analysis applications. The programme has strong links to current research in the Department of Electronic Engineering’s Centre for Vision, Speech and Signal Processing.

PROGRAMME LEARNING OUTCOMES

The Department's taught postgraduate programmes are designed to enhance the student's technical knowledge in the topics within the field that he/she has chosen to study, and to contribute to the Specific Learning Outcomes set down by the Institution of Engineering and Technology (IET) (which is the Professional Engineering body for electronic and electrical engineering) and to the General Learning Outcomes applicable to all university graduates.

General transferable skills
-Be able to use computers and basic IT tools effectively
-Be able to retrieve information from written and electronic sources
-Be able to apply critical but constructive thinking to received information
-Be able to study and learn effectively
-Be able to communicate effectively in writing and by oral presentations
-Be able to present quantitative data effectively, using appropriate methods

Time and resource management
-Be able to manage own time and resources
-Be able to develop, monitor and update a plan, in the light of changing circumstances
-Be able to reflect on own learning and performance, and plan its development/improvement, as a foundation for life-long learning

Underpinning learning
-Know and understand scientific principles necessary to underpin their education in electronic and electrical engineering, to enable appreciation of its scientific and engineering content, and to support their understanding of historical, current and future developments
-Know and understand the mathematical principles necessary to underpin their education in electronic and electrical engineering and to enable them to apply mathematical methods, tools and notations proficiently in the analysis and solution of engineering problems
-Be able to apply and integrate knowledge and understanding of other engineering disciplines to support study of electronic and electrical engineering

Engineering problem-solving
-Understand electronic and electrical engineering principles and be able to apply them to analyse key engineering processes
-Be able to identify, classify and describe the performance of systems and components through the use of analytical methods and modelling techniques
-Be able to apply mathematical and computer-based models to solve problems in electronic and electrical engineering, and be able to assess the limitations of particular cases
-Be able to apply quantitative methods relevant to electronic and electrical engineering, in order to solve engineering problems
-Understand and be able to apply a systems approach to electronic and electrical engineering problems

Engineering tools
-Have relevant workshop and laboratory skills
-Be able to write simple computer programs, be aware of the nature of microprocessor programming, and be aware of the nature of software design
-Be able to apply computer software packages relevant to electronic and electrical engineering, in order to solve engineering problems

Technical expertise
-Know and understand the facts, concepts, conventions, principles, mathematics and applications of the range of electronic and electrical engineering topics he/she has chosen to study
-Know the characteristics of particular materials, equipment, processes or products
-Have thorough understanding of current practice and limitations, and some appreciation of likely future developments
-Be aware of developing technologies related to electronic and electrical engineering
-Have comprehensive understanding of the scientific principles of electronic engineering and related disciplines
-Have comprehensive knowledge and understanding of mathematical and computer models relevant to electronic and electrical engineering, and an appreciation of their limitations
-Know and understand, at Master's level, the facts, concepts, conventions, principles, mathematics and applications of a range of engineering topics that he/she has chosen to study
-Have extensive knowledge of a wide range of engineering materials and components
-Understand concepts from a range of areas including some from outside engineering, and be able to apply them effectively in engineering projects

Societal and environmental context
-Understand the requirement for engineering activities to promote sustainable development
-Relevant part of: Be aware of the framework of relevant legal requirements governing engineering activities, including personnel, health, safety and risk (including environmental risk issues
-Understand the need for a high level of professional and ethical conduct in engineering

Employment context
-Know and understand the commercial and economic context of electronic and electrical engineering processes
-Understand the contexts in which engineering knowledge can be applied (e.g. operations and management, technology development, etc.)
-Be aware of the nature of intellectual property
-Understand appropriate codes of practice and industry standards
-Be aware of quality issues
-Be able to apply engineering techniques taking account of a range of commercial and industrial constraints
-Understand the basics of financial accounting procedures relevant to engineering project work
-Be able to make general evaluations of commercial risks through some understanding of the basis of such risks
-Be aware of the framework of relevant legal requirements governing engineering activities, including personnel, health, safety and risk (including environmental risk) issues

Research and development
-Understand the use of technical literature and other information sources
-Be aware of the need, in appropriate cases, for experimentation during scientific investigations and during engineering development
-Be able to use fundamental knowledge to investigate new and emerging technologies
-Be able to extract data pertinent to an unfamiliar problem, and employ this data in solving the problem, using computer-based engineering tools when appropriate
-Be able to work with technical uncertainty

Design
-Understand the nature of the engineering design process
-Investigate and define a problem and identify constraints, including environmental and sustainability limitations, and health and safety and risk assessment issues
-Understand customer and user needs and the importance of considerations such as aesthetics
-Identify and manage cost drivers
-Use creativity to establish innovative solutions
-Ensure fitness for purpose and all aspects of the problem including production, operation, maintenance and disposal
-Manage the design process and evaluate outcomes
-Have wide knowledge and comprehensive understanding of design processes and methodologies and be able to apply and adapt them in unfamiliar situations
-Be able to generate an innovative design for products, systems, components or processes, to fulfil new needs

Project management
-Be able to work as a member of a team
-Be able to exercise leadership in a team
-Be able to work in a multidisciplinary environment
-Know about management techniques that may be used to achieve engineering objectives within the commercial and economic context of engineering processes
-Have extensive knowledge and understanding of management and business practices, and their limitations, and how these may be applied appropriately

FACILITIES, EQUIPMENT AND SUPPORT

To support your learning, we hold regular MSc group meetings where any aspect of the programme, technical or non-technical, can be discussed in an informal atmosphere. This allows you to raise any problems that you would like to have addressed and encourages peer-based learning and general group discussion.

We provide computing support with any specialised software required during the programme, for example, Matlab. The Faculty’s student common room is also covered by the University’s open-access wireless network, which makes it a very popular location for individual and group work using laptops and mobile devices.

Specialist experimental and research facilities, for computationally demanding projects or those requiring specialist equipment, are provided by the Centre for Vision, Speech and Signal Processing (CVSSP).

CAREER PROSPECTS

Computer vision specialists are be valuable in all industries that require intelligent processing and interpretation of image and video. This includes industries in directly related fields such as:
-Multimedia indexing and retrieval (Google, Microsoft, Apple)
-Motion capture (Foundry)
-Media production (BBC, Foundry)
-Medical Imaging (Siemens)
-Security and Defence (BAE, EADS, Qinetiq)
-Robotics (SSTL)

Studying for Msc degree in Computer Vision offers variety, challenge and stimulation. It is not just the introduction to a rewarding career, but also offers an intellectually demanding and exciting opportunity to break through boundaries in research.

Many of the most remarkable advancements in the past 60 years have only been possible through the curiosity and ingenuity of engineers. Our graduates have a consistently strong record of gaining employment with leading companies.

Employers value the skills and experience that enable our graduates to make a positive contribution in their jobs from day one.

Our graduates are employed by companies across the electronics, information technology and communications industries. Recent employers include:
-BAE Systems
-BT
-Philips
-Hewlett Packard
-Logica
-Lucent Technologies
-BBC
-Motorola
-NEC Technologies
-Nokia
-Nortel Networks
-Red Hat

INDUSTRIAL COLLABORATIONS

We draw on our industry experience to inform and enrich our teaching, bringing theoretical subjects to life. Our industrial collaborations include:
-Research and technology transfer projects with industrial partners such as the BBC, Foundry, LionHead and BAE
-A number of our academics offer MSc projects in collaboration with our industrial partners

RESEARCH PERSPECTIVES

This course gives an excellent preparation for continuing onto PhD studies in computer vision related domains.

GLOBAL OPPORTUNITIES

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

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

Read less
Take advantage of one of our 100 Master’s Scholarships or College of Science Postgraduate Scholarships to study Computer Science at Swansea University, the Times Good University Guide’s Welsh University of the Year 2017. Read more
Take advantage of one of our 100 Master’s Scholarships or College of Science Postgraduate Scholarships to study Computer Science at Swansea University, the Times Good University Guide’s Welsh University of the Year 2017. Postgraduate loans are also available to English and Welsh domiciled students. For more information on fees and funding please visit our website.

The MSc in Computer Science course is for you if you are a graduate from one of a wide range of disciplines and are looking to change direction or because of the needs of your chosen career, require a solid foundation in Computer Science.

As the use of computers and computer based systems continues to grow in all aspects of life, at home and at work, it is apparent that there will be for years to come a need for many people who can combine a knowledge of Computer Science, the discipline that underlies Information Technology, and degree level knowledge in a wide variety of other disciplines.

Over the duration of the MSc Computer Science course you will study a variety of modules taught by academic staff that are part of internationally renowned research groups. The course is also regularly updated to ensure that it keeps pace with the rapid developments in Computer Science.

Key Features of Computer Science MSc

• We are top in the UK for career prospects*
• We are 3rd in the UK for teaching quality**
• 5th in the UK overall*
• 7th in the UK for student satisfaction with 98% [National Student Survey 2016]
• 7th in the UK overall and Top in Wales*
• High employability prospects - we are 8th in the UK for graduate prospects*
• 92% in graduate employment or further study six months after leaving University [HESA data 2014/15]
• UK TOP 20 for Research Excellence [Research Excellence Framework 2014]
• Our Project Fair allows students to present their work to local industry
• Strong links with industry
• £31m Computational Foundry for computer and mathematical sciences will provide the most up-to-date and high quality teaching facilities featuring world-leading experimental set-ups, devices and prototypes to accelerate innovation and ensure students will be ready for exciting and successful careers. (From September 2018)

*Guardian University Guide 2017
**Times & Sunday Times University Guide 2016

Modules of Computer Science MSc

Modules for the MSc in Computer Science include Computer Science Project Research Methods but please visit our course page for more information.

Facilities

The Department of Computer Science is well equipped for teaching, and is continually upgrading its laboratories to ensure equipment is up-to-date – equipment is never more than three years old, and rarely more than two. Currently, our Computer Science students use three fully networked laboratories: one, running Windows; another running Linux; and a project laboratory, containing specialised equipment. These laboratories support a wide range of software, including the programming languages Java, C# and the .net framework, C, C++, Haskell and Prolog among many; integrated programme development environments such as Visual Studio and Netbeans; the widely-used Microsoft Office package; web access tools; and many special purpose software tools including graphical rendering and image manipulation tools; expert system production tools; concurrent system modelling tools; World Wide Web authoring tools; and databases.

As part of the expansion of the Department of Computer Science, we are building the Computational Foundry on our Bay Campus for computer science and mathematical science.

Careers

All Computer Science courses will provide you the transferable skills and knowledge to help you take advantage of the excellent employment and career development prospects in an ever growing and changing computing and ICT industry.

94% of our Postgraduate Taught Graduates of Computer Science were in professional level work or study [DLHE 14/15].

Student Profile

“I chose the MSc Computer Science as a conversion from my previous War and Society degree, primarily employment opportunities. The course was by no means easy for me coming from an arts background, and the first few weeks I felt a little over my head, but thanks to the truly stimulating content from the syllabus and the high quality of the teaching within the department I soon caught up and began to thrive on the course. My project revolved around a comparative study of the Haskell Web-Framework Yesod and ASP.NET. During the completion of this I picked up many of the skills that I now use on an everyday basis in my role at Kinspeed (A Sheffield based Software House). Since starting work I have been able to apply many of the skills I obtained during my time at Swansea and have no doubt that choosing to study the MSc Computer Science at Swansea was one of the better decisions of my life.”

Chris Swires

Research

The results of the Research Excellence Framework (REF) 2014 show that Swansea Computer Science ranked 11th in the UK for percentage of world-leading research, and 1st in Wales for research excellence. 40% of our submitted research assessed as world-leading quality (4*).

Read less
Take advantage of one of our 100 Master’s Scholarships or College of Science Postgraduate Scholarships to study Advanced Software Technology at Swansea University, the Times Good University Guide’s Welsh University of the Year 2017. Read more
Take advantage of one of our 100 Master’s Scholarships or College of Science Postgraduate Scholarships to study Advanced Software Technology at Swansea University, the Times Good University Guide’s Welsh University of the Year 2017. Postgraduate loans are also available to English and Welsh domiciled students. For more information on fees and funding please visit our website.

Computing is about data, algorithms, programs and computers. It is a young academic discipline and is rich in applications, since computing systems are everywhere: in science and engineering, medicine, design and manufacture, commerce and public service, defence, transportation, arts and the media, and the home.

The MSc Advanced Software Technology is suitable you if you are a Computer Science graduate or have gained some experience of computing and basic programming in your first degree. This programme in Advanced Software Technology will also be of interest to you If you have substantial relevant experience gained from working in a computer related environment for some time and are looking to update or broaden your knowledge.

Key Features of Advanced Software Technology MSc

• We are top in the UK for career prospects*
• We are 3rd in the UK for teaching quality**
• 5th in the UK overall*
• 7th in the UK for student satisfaction with 98% [National Student Survey 2016]
• 7th in the UK overall and Top in Wales*
• High employability prospects - we are 8th in the UK for graduate prospects*
• 92% in graduate employment or further study six months after leaving University [HESA data 2014/15]
• UK TOP 20 for Research Excellence [Research Excellence Framework 2014]
• Our Project Fair allows students to present their work to local industry
• Strong links with industry
• £31m Computational Foundry for computer and mathematical sciences will provide the most up-to-date and high quality teaching facilities featuring world-leading experimental set-ups, devices and prototypes to accelerate innovation and ensure students will be ready for exciting and successful careers. (From September 2018)

*Guardian University Guide 2017
**Times & Sunday Times University Guide 2016

Modules of Advanced Software Technology MSc

Modules for the MSc in Advanced Software Technology include Computer Science Project Research Methods but please visit our course page for more information.

Facilities

The Department of Computer Science is well equipped for teaching, and is continually upgrading its laboratories to ensure equipment is up-to-date – equipment is never more than three years old, and rarely more than two. Currently, our Computer Science students use three fully networked laboratories: one, running Windows; another running Linux; and a project laboratory, containing specialised equipment. These laboratories support a wide range of software, including the programming languages Java, C# and the .net framework, C, C++, Haskell and Prolog among many; integrated programme development environments such as Visual Studio and Netbeans; the widely-used Microsoft Office package; web access tools; and many special purpose software tools including graphical rendering and image manipulation tools; expert system production tools; concurrent system modelling tools; World Wide Web authoring tools; and databases.

As part of the expansion of the Department of Computer Science, we are building the Computational Foundry on our Bay Campus for computer science and mathematical science.

Careers

All Computer Science courses will provide you the transferable skills and knowledge to help you take advantage of the excellent employment and career development prospects in an ever growing and changing computing and ICT industry.

94% of our Postgraduate Taught Graduates of Computer Science were in professional level work or study [DLHE 14/15]

Student profiles

“One of the main reasons I chose Swansea was because of the excellent reputation of the Computer Science Department which is ranked among the top 25 in the UK. The Lecturers in the Department are excellent, and are equally very accessible to students. Many are actively involved in world class research. Their knowledge is shared with us in lectures. I love Swansea. I have recently completed the MSc and intend to gain further experience in the software industry before pursuing a PhD at Swansea University. “

Manikanta Gudur - MSc in Advanced Computer Science Graduate

Read less
Take advantage of one of our 100 Master’s Scholarships or College of Science Postgraduate Scholarships to study Advanced Computer Science at Swansea University, the Times Good University Guide’s Welsh University of the Year 2017. Read more
Take advantage of one of our 100 Master’s Scholarships or College of Science Postgraduate Scholarships to study Advanced Computer Science at Swansea University, the Times Good University Guide’s Welsh University of the Year 2017. Postgraduate loans are also available to English and Welsh domiciled students. For more information on fees and funding please visit our website.

On the MSc in Advanced Computer Science course you will be thoroughly prepared for a career in IT or related industries. The Advanced Computer Science course is for you if you are a Computer Science graduate or if you have gained experience of computing and programming in a different first degree. Willingness to work hard and an ability to problem solve are equally important for this MSc in Advanced Computer Science. The MSc in Advanced Computer Science course will develop the skills and knowledge you have gained from your first degree by broadening and deepening your knowledge of Computer Science through a variety of advanced modules and material. The MSc in Advanced Computer Science is accredited by the British Computer Society.

Key Features of Advanced Computer Science MSc

• We are top in the UK for career prospects*
• We are 3rd in the UK for teaching quality**
• 5th in the UK overall*
• 7th in the UK for student satisfaction with 98% [National Student Survey 2016]
• 7th in the UK overall and Top in Wales*
• High employability prospects - we are 8th in the UK for graduate prospects*
• 92% in graduate employment or further study six months after leaving University [HESA data 2014/15]
• UK TOP 20 for Research Excellence [Research Excellence Framework 2014]
• Our Project Fair allows students to present their work to local industry
• Strong links with industry
• £31m Computational Foundry for computer and mathematical sciences will provide the most up-to-date and high quality teaching facilities featuring world-leading experimental set-ups, devices and prototypes to accelerate innovation and ensure students will be ready for exciting and successful careers. (From September 2018)

*Guardian University Guide 2017
**Times & Sunday Times University Guide 2016

Modules of Advanced Computer Science MSc

Modules for the MSc in Advanced Computer Science include Computer Science Project Research Methods but please visit our course page for more information.

Facilities

The Department of Computer Science is well equipped for teaching, and is continually upgrading its laboratories to ensure equipment is up-to-date – equipment is never more than three years old, and rarely more than two. Currently, our Computer Science students use three fully networked laboratories: one, running Windows; another running Linux; and a project laboratory, containing specialised equipment. These laboratories support a wide range of software, including the programming languages Java, C# and the .net framework, C, C++, Haskell and Prolog among many; integrated programme development environments such as Visual Studio and Netbeans; the widely-used Microsoft Office package; web access tools; and many special purpose software tools including graphical rendering and image manipulation tools; expert system production tools; concurrent system modelling tools; World Wide Web authoring tools; and databases.

As part of the expansion of the Department of Computer Science, we are building the Computational Foundry on our Bay Campus for computer science and mathematical science.

Careers

All Computer Science courses will provide you the transferable skills and knowledge to help you take advantage of the excellent employment and career development prospects in an ever growing and changing computing and ICT industry.

94% of our Postgraduate Taught Graduates of Computer Science were in professional level work or study [DLHE 14/15]

Student Profile

Francesca Madeddu, originally from Italy, completed an outstanding Master’s thesis (which earned her a distinction) investigating interaction with augmented reality on mobile devices. More specifically, she investigated how to interact with virtual Egyptian artefacts placed in real scenes. The final game was deployed at Swansea's Egypt Centre last year and was evaluated by volunteers working at the museum. A Master’s thesis does not often lead to a publication. However, part of Francesca's research was written up as an extended abstract and presented at Computer Graphics and Visual Computing (CGVC), a Eurographics UK conference for visual computing last year. An exceptional achievement!

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MA Fine Art gives you the opportunity to explore subject-specific areas, and our course also provides the intellectual and physical space for multi or interdisciplinary practices. Read more
MA Fine Art gives you the opportunity to explore subject-specific areas, and our course also provides the intellectual and physical space for multi or interdisciplinary practices.

Throughout this MA you'll develop visual and conceptual thinking, with the aim of establishing and refining a research project to be sustained beyond graduation, and developed into either a practice-based or theoretically-led enquiry.

Whilst working towards your qualification, you might choose to specialise within or across subject areas. And our course welcomes applicants who are looking to re-examine their current work and research.

MA Fine Art aims to test the relationship between your work and key historical and critical developments. It also looks to consider it within current societal and political contexts.

As a student on our course, you'll need to be ready to question, curious and enthusiastic about testing the boundaries of what constitutes art practice in the twenty-first century.

Our course at UCA Farnham is unique in that it provides students studying at postgraduate level with a range of first-class facilities, including bronze foundry, printmaking, metals, wood and casting facilities and resources. We provide specialist studio spaces for both full and part-time students, and dedicated technical staff are on hand to support individual projects as well as introductions to workshop areas.

Throughout your studies, you'll be supported by professional artists, curators and theorists. The department has a rich tradition in the teaching and exploration of fine art, and many of the staff are research practitioners, contributing to the wider development of knowledge within their specialist areas.

Part-time students are normally taught on a Tuesday but sometimes field trips, study visits or other events take place on other days of the week. You should check before enrolling if you have concerns about the days your course will be taught on.

Industry Partners

Our industry links are with publicly-funded galleries and commercial London-based spaces.

We also enjoy links with regional artist groups and artist-run spaces throughout the South East. We work closely with a number of public arts projects throughout the region.

Throughout your studies, you'll be supported by professional artists, curators and theorists. The department has a rich tradition in the teaching and exploration of fine art, and many of our staff are research practitioners, contributing to the wider development of knowledge within their specialist areas.

Careers

Graduates from this course go on to work as:
-Professional artists
-Curators
-Arts administrators
-Community artists
-Technicians
-Lecturers and teachers

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Glass is a medium that crosses a range of disciplines and is used by artists, craftspeople and designers alike. This award-winning programme explores glass as a design tool that encourages process-led risk and play, in parallel with the prototyping and resolution of designed objects. Read more

Programme description

Glass is a medium that crosses a range of disciplines and is used by artists, craftspeople and designers alike. This award-winning programme explores glass as a design tool that encourages process-led risk and play, in parallel with the prototyping and resolution of designed objects.

Courses cover contemporary design issues including material narratives, interdisciplinary crossover and post-digital practices, as well as studio and client-based projects.

You will focus on the materiality of glass, explore new boundaries through the integrated relationship between process and theory, and be encouraged to position yourself within and beyond the disciplines of glass.

This programme is unique in Scotland and ECA is one of the few centres of excellence in this discipline in the UK. Comprehensive glass and plaster workshops are complemented by state-of-the-art digital fabrication labs, woodwork, metalwork and bronze foundry, enabling you to experience the complete design journey from conception to the production of glass at the highest level.

You will benefit from visiting professional practitioners and lecturers and will have the opportunity to participate in live projects and competitions. The curriculum combines programme and student-led activity, delivered through workshops, group seminars and individual tutorials.

You will negotiate and develop a programme of study based on personal areas of practice-based research. We foster interdisciplinary collaboration with other departments creating a unique student experience and rich opportunities for learning.

Programme structure

This programme combines directed and self-directed practice-based studio projects with theoretical and written studies, including professional practice elements to prepare you for employment in the industry, and a lecture/seminar series to examine the wider context of your studies.

The programme focuses on providing the tools of craft and design through comprehensive professional practice workshops, focused on the specific requirements of the designer maker. You will produce a body of practical and written work on an agreed, self-initiated project. MFA students produce an additional extended body of work.

Career opportunities

As a graduate you will discover a diverse range of career opportunities. Alumni have worked within the production of individual designed objects, as lead designers within industry, as gallery representation, on commissioned major public artworks, and in teaching and leading positions within creative practices.

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It aims to produce successful individuals who can. - Understand the whole of the professional design development process and how the initial phases flow to inform the latter stages. Read more

Course Overview

It aims to produce successful individuals who can:
- Understand the whole of the professional design development process and how the initial phases flow to inform the latter stages.

- Appreciate commercial realities and the designer’s role in business.

- Design desirable products for bespoke, batch or mass manufacture.

- Understand sustainability, inclusively, and other important ethical and social issues that must be considered by today’s designers.

- Have traditional design skills such as sketching, dealing with form, communication and innovation.

- Are able to use design tools such as 3D CAD, CAM and rapid prototyping in order to optimise the design and reduce time to market.

The Cardiff School of Art & Design have substantial expertise in the delivery of courses at the interface of engineering and product design whilst the National Centre for Product Design & Development Research is one of the UK’s leading centres for rapid product design & development whose expertise covers the whole process from design management, concept and detailed design, ergonomics and CAD to prototyping, tooling and batch manufacture.

See the website https://www.cardiffmet.ac.uk/artanddesign/courses/Pages/mscapd.aspx

Course Content

MSc students take the following modules:
- APD401M Product Development Principles & Practice (20 Credits)
- APD403M Sustainability Issues in Design for Production (20 Credits)
- MAA7001 Research Methods in Art & Design (20 Credits)
- APD405M User Testing & Evaluation (20 Credits)
- APD406M Form Shape & Colour (20 Credits)
- APD407M Major Project (60 Credits)
- APD408M(A) Industrial Placement (20 Credits)

Each 20 credits is equivalent to 240 learning hours (80 typically are taught and 160 are directed study or independent study).

- Facilities
Dedicated studio space. Cardiff School of Art and Design offers an extensive range of spaces, workshops and equipment, creating a vibrant and creative learning environment, within a new purpose designed building and a fully renovated extension. Workshop and technical facilities include a foundry; and access to other workshops across the full range of Art and Design disciplines. Membership of the Fablab is included in the indicative coursework costs below. Cardiff School of Art and Design has a wide range of tools and equipment for use by students; necessary workshop training in their use includes access to materials used as part of timetabled workshop inductions. You also have access to and use of recycled materials within workshop areas.

Assessment

For each module, assessment is as follows:
- APD401M Product Development Principles & Practice (20 Credits) 6000 word equivalent assignment. This will normally be a written assignment.

- APD403M Sustainability Issues in Design for Production (20 Credits) 6000 word equivalent. This module will typically be assessed via a design project. A proportion of the assignment may however be awarded for written or presentatio​n work.

- MAA7001 Research Methods in Art & Design (20 Credits) Written submission, plus seminar presentation, typically 3,000 words plus a 10-20 minute presentation.

- APD405M User Testing & Evaluation (20 Credits) 6000 word equivalent. This module may be linked with others in order to provide a design project vehicle. In any case it will involve practical exercises and a proportion if not all of the assignment may be awarded for written or presentation work.

- APD406M Form Shape & Colour (20 Credits) 6000 word equivalent. This project is likely to be assessed through practical design activity, although a proportion of the assignment may be awarded for written or presentation work.

- APD407M Major Project (60 Credits). 18,000-word equivalent. Performance will be measured using the Final Report, Formal Presentation, Viva Voce examination and final product. Of the marks that are available for the project the allocation of the marks to each of the measures is as follows:

Final Report: 40%

Final Product (prototype): 40%

Formal Presentation: 5%

Viva Voce: 15%

- APD408M(A) Industrial Placement (20 Credits) 6000 word equivalent. A 3000 word ( maximum) report reflecting on the student’s experience within the professional working environment. A reflective placement Logbook (or Blog equivalent) recording critical reflections on events, activities and experiences. Important Note: Because of the difficulties of assessment in the workplace and the potential for disparity of treatment, this module is not awarded a mark other than “Pass” or “Fail”.

Support will be available through weekly small group seminars (normally no more than 16 students per group), exploring the theme of lectures and allowing students to clarify their understanding.

These sessions may also be workshops where practical demonstrations, involving student participation, are run. This may include, for example, communal writing or small group discourse analysis. Weekly tutorials will also be available.

Employability & Careers

Your year(s) of study with us enable you to develop professional contacts, observe how successful practitioners make their living, and hone your skills and ideas for commercial and professional advantage. Such cross-disciplinary collaborations prepare you for a world where you will inevitably work with people from all walks of life. Your live projects and assessments will get you accustomed to the importance of deadlines and working to specific briefs and tight specifications.

Over the next few years, CSAD will be developing opportunities for incubation of business proposals from its graduates and postgraduate training to get business opportunities up and running.

All students’ are expected to complete a portable ‘record of achievement’ and use their PDP to support employability and life-long learning, normally in the form of a blog, that integrates opportunities for self-reflection in programmes in order to help them develop as effective and confident learners.

Find information on Scholarships here https://www.cardiffmet.ac.uk/scholarships

Find out how to apply here https://www.cardiffmet.ac.uk/howtoapply

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This programme is for artists who want to develop their specialist studio practice to a higher level. The course will give you the opportunity to enhance your practical and creative skills as a practicing artist, underpinned by a contextual research-based programme of critical studies. Read more
This programme is for artists who want to develop their specialist studio practice to a higher level.

The course will give you the opportunity to enhance your practical and creative skills as a practicing artist, underpinned by a contextual research-based programme of critical studies. You will be given a personal supervisor at the start of the programme, and you will also work in the studio alongside your fellow MA Fine Art students.

It builds upon the distinctive approach to arts practice currently offered on the undergraduate fine art programme at the University. The course combines the use of established media and techniques with an ethos of open learning and experimentation using new and alternative media.
You will enhance your practice through a critical and contextual understanding of your creative methods, enabling you to develop and broaden your work in the formulation and articulation of your ideas.

Through contacts with external partners and arts-based agencies you will engage directly with the world of contemporary fine art, extending your knowledge of the commercial side of the art world. This aspect of your practice will also be supported by learning business management skills such as creating a business plan and writing proposal briefs for commission, exhibition and project work.

The course is taught by practitioners with extensive experience of creative media and the broader art world. In addition to studio work, (which will take up the bulk of your time here), you will learn through lectures, master classes, field trips, seminars, presentations, group work, tutorials and independent study.

The fine art department has excellent facilities for a variety of creative practices. These include a fully-equipped wood workshop; a fully-equipped metal workshop with facilities to work with a wide variety of metals, including a small aluminium foundry; a printmaking studio; a ceramics and casting studio with two large kilns; and a digital studio equipped with the latest AppleMac computers, a range of high end software and printing facilities up to A1 size.

Special features

The open nature of the fine art studio means you will have the opportunity to apply a multi-disciplinary approach to your work and make use of the high level facilities available within the studio set-up.

The fine art department has established strong links with a number of arts organisations and groups within the region, including Bolton Metropolitan Borough Council, Bolton At Home, Queens Park and Bolton Landscape Department, Bolton Schools Liaison Network, Bolton Museum and Art Gallery, Hospital Arts, and a large number of private organisations who regularly commission our students.

Students from the undergraduate programme have successfully set up three large studio groups in the region and studio spaces are available for students to rent in these studios at very reasonable rates. Two new contemporary art galleries have also been set up by our students in the past three years.

The department has also set up an undergraduate programme in fine art in Athens and students from the programme have an opportunity to spend some time at the art school in the centre of this historic city.

For more information please visit http://www.bolton.ac.uk/postgrad

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Take advantage of one of our 100 Master’s Scholarships or College of Science Postgraduate Scholarships to study Visual Computing at Swansea University, the Times Good University Guide’s Welsh University of the Year 2017. Read more
Take advantage of one of our 100 Master’s Scholarships or College of Science Postgraduate Scholarships to study Visual Computing at Swansea University, the Times Good University Guide’s Welsh University of the Year 2017. Postgraduate loans are also available to English and Welsh domiciled students. For more information on fees and funding please visit our website.

The MRes Visual Computing is an ideal preparation for following a career of research or specialism within the area of study. In particular the MRes in Visual Computing seeks to prepare you for further research in the areas of Computer Graphics, Computer Vision, Medical Imaging, and Scientific Visualisation.

We seek strongly motivated students who are able to carry out substantial individual study. Such students are likely to want to control their own time, carry out curiosity driven research to an advanced level, and follow self-study material in advanced topics.

You will decide upon your topic of research in discussion with your supervisor in an exciting and recent area of Visual Computing. In collaboration with your supervisor you will evaluate current research and carry your own research programme based on the contribution you will make. The research programme is supported by taught courses covering useful literature and skills.

Course Content

Research Component

The main part of the MRes in Visual Computing is a substantial and challenging project involving cutting edge research. The project is an exciting opportunity for you to carry out research in the area of Visual Computing. You will produce an abstract of your work, a scientific paper, carry out a presentation and produce your final dissertation.

Taught Component

In addition to the research project, you can choose from a range of modules that provide skills and development training in different areas.

Modules available currently include:

Computer Vision and Pattern Recognition (compulsory)
Data Visualisation (compulsory)
Graphics Processor Programming (compulsory)
Research Methodology (compulsory)
Visual Computing Project Development (compulsory)
Distributed Object-Oriented Programming
Interaction Technologies: Information Retrieval
High Performance Computing in C/C++
Interaction Technologies: Hardware and Devices

Facilities

The Department of Computer Science is well equipped for teaching, and is continually upgrading its laboratories to ensure equipment is up-to-date – equipment is never more than three years old, and rarely more than two. Currently, our Computer Science students use three fully networked laboratories: one, running Windows; another running Linux; and a project laboratory, containing specialised equipment. These laboratories support a wide range of software, including the programming languages Java, C# and the .net framework, C, C++, Haskell and Prolog among many; integrated programme development environments such as Visual Studio and Netbeans; the widely-used Microsoft Office package; web access tools; and many special purpose software tools including graphical rendering and image manipulation tools; expert system production tools; concurrent system modelling tools; World Wide Web authoring tools; and databases.

As part of the expansion of the Department of Computer Science, we are building the Computational Foundry on our Bay Campus for computer science and mathematical science.

Careers

All Computer Science courses will provide you the transferable skills and knowledge to help you take advantage of the excellent employment and career development prospects in an ever growing and changing computing and ICT industry.

94% of our Postgraduate Taught Graduates of Computer Science were in professional level work or study [DLHE 14/15]

Research

The results of the Research Excellence Framework (REF) 2014 show that we lead Wales in the field of Computer Science and are in the UK Top 20.

We are ranked 11th in the UK for percentage of world-leading research, and 1st in Wales for research excellence. 40% of our submitted research assessed as world-leading quality (4*).

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Take advantage of one of our 100 Master’s Scholarships to study Computer Science at Swansea University, the Times Good University Guide’s Welsh University of the Year 2017. Read more
Take advantage of one of our 100 Master’s Scholarships to study Computer Science at Swansea University, the Times Good University Guide’s Welsh University of the Year 2017. Postgraduate loans are also available to English and Welsh domiciled students. For more information on fees and funding please visit our website.

As an MSc by Research Computer Science student you will be guided by internationally leading researchers in the field of computer science and will carry out a large individual research project. Computer Science is at the cutting edge of modern technology, and is developing rapidly and Swansea Computer Science graduates enjoy excellent employment prospects.

Computer Science now plays a part in almost every aspect of our lives - science, engineering, the media, entertainment, travel, commerce and industry, public services and the home.

The MSc by Research Computer Science degree enables you to pursue a one year individual programme of research in the field of computer science and would normally terminate after a year. However, under appropriate circumstances, this first year of research can also be used in a progression to Year 2 of a PhD degree.

The MSc by Research programmes including Computer Science MSc by Research all have a recommended initial research training module (Science Skills & Research Methods), but otherwise has no taught element and is most suitable for you if you have an existing background in biosciences or cognate discipline and are looking to pursue a wholly research-based programme of study.

As a student of the MSc by Research Computer Science programme you will be fully integrated into one of our established research groups and participate in research activities such as seminars, workshops, laboratories, and field work.

Facilities

The Department of Computer Science is well equipped for teaching, and is continually upgrading its laboratories to ensure equipment is up-to-date – equipment is never more than three years old, and rarely more than two. Currently, our Computer Science students use three fully networked laboratories: one, running Windows; another running Linux; and a project laboratory, containing specialised equipment. These laboratories support a wide range of software, including the programming languages Java, C# and the .net framework, C, C++, Haskell and Prolog among many; integrated programme development environments such as Visual Studio and Netbeans; the widely-used Microsoft Office package; web access tools; and many special purpose software tools including graphical rendering and image manipulation tools; expert system production tools; concurrent system modelling tools; World Wide Web authoring tools; and databases.

As part of the expansion of the Department of Computer Science, we are building the Computational Foundry on our Bay Campus for computer science and mathematical science.

Research

The results of the Research Excellence Framework (REF) 2014 show that we lead Wales in the field of Computer Science and are in the UK Top 20.

We are ranked 11th in the UK for percentage of world-leading research, and 1st in Wales for research excellence. 40% of our submitted research assessed as world-leading quality (4*).

Links with Industry

Each spring, Computer Science students prepare and present a poster about their project at a project fair – usually together with a system or software demonstration. We also strongly encourage students to create CVs and business cards to take along to the fair, as businesses and employers visit to view the range of projects and make contact with the graduating students.

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Take advantage of one of our 100 Master’s Scholarships to study Mathematics at Swansea University, the Times Good University Guide’s Welsh University of the Year 2017. Read more
Take advantage of one of our 100 Master’s Scholarships to study Mathematics at Swansea University, the Times Good University Guide’s Welsh University of the Year 2017. Postgraduate loans are also available to English and Welsh domiciled students. For more information on fees and funding please visit our website.

As an MSc by Research in Mathematics student you will be guided by internationally leading researchers and will carry out a large individual research project.

You will be fully integrated into one of our established research groups and participate in research activities such as seminars, workshops, laboratories, and field work.

Key Features

Swansea is a research-led University and the Mathematics Department makes a significant contribution, meaning that as a postgraduate Mathematics student you will benefit from the knowledge and skills of internationally renowned academics.

In the Department of Mathematics at Swansea you will find friendly teaching staff that are fully committed to providing you with a supportive teaching and learning environment. This includes outstanding student support.

All postgraduate Mathematics programmes at Swansea will equip you with skills relevant for a rewarding career in a range of diverse fields. You will also further develop your communication, presentation and analytical skills.

The Mathematics Department’s research groups include:

Algebra and Topology Group

Areas of interest include: Noncommutative geometry, Categorical methods in algebra and topology, Homotopy theory and homological algebra and others.

Analysis and Nonlinear Partial Differential Equations Group

Areas of interest include: Reaction-diffusion and reaction-diffusion-convection equations and systems, Navier–Stokes equations in fluid dynamic, Complexity in the calculus of variations and others.

Stochastic Analysis Group

Areas of interest include: Functional inequalities and applications, Lévy-type processes, Stochastic modelling of fractal, multifractal and multiscale systems, Infinite dimensional stochastic analysis and others.

Mathematical Methods in Biology and Life Sciences Group

Areas of interest include: Mathematical pharmacology; heat and mass transfer models for plant cooling; modelling cellular signal transduction dynamics; mathematical oncology: multi-scale modelling of cancer growth, progression and therapies, and modelling-optimized delivery of multi-modality therapies; multi-scale analysis of individual-based models; spreading speeds and travelling waves in ecology; high performance computing

Employability

The ability to think rationally and to process data clearly and accurately are highly valued by employers. Mathematics graduates earn on average 50% more than most other graduates. The most popular areas are the actuarial profession, the financial sector, IT, computer programming and systems administration, and opportunities within business and industry where employers need mathematicians for research and development, statistical analysis, marketing and sales.

Facilities

The Aubrey Truman Reading Room, located in the centre of the Department of Mathematics, houses the departmental library and computers for student use, and is a popular venue for students to work independently on the regular exercise sheets set by their lecturers, and to discuss mathematics together.

The main university library, the Learning and Information Centre (LIC), contains a notably extensive collection of mathematics books.

As part of our expansion, we are building the Computational Foundry on our Bay Campus for computer and mathematical sciences. This development is exciting news for Swansea Mathematics who are part of the vibrant and growing community of world-class research leaders drawn from computer and mathematical sciences.

Research

The results of the Research Excellence Framework (REF) 2014 show that our research environment (how the Mathematics Department supports research staff and students) and the impact of our research (its value to society) were both judged to be 100% world leading or internationally excellent.

All academic staff in Mathematics are active researchers and the department has a thriving research culture.

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Take advantage of one of our 100 Master’s Scholarships to study Theoretical Computer Science at Swansea University, the Times Good University Guide’s Welsh University of the Year 2017. Read more
Take advantage of one of our 100 Master’s Scholarships to study Theoretical Computer Science at Swansea University, the Times Good University Guide’s Welsh University of the Year 2017. Postgraduate loans are also available to English and Welsh domiciled students. For more information on fees and funding please visit our website.

Computer Science is at the cutting edge of modern technology, is developing rapidly, and Swansea Computer Science graduates enjoy excellent employment prospects.

Computer Science now plays a part in almost every aspect of our lives - science, engineering, the media, entertainment, travel, commerce and industry, public services and the home.

The MSc by Research Theoretical Computer Science enables students to pursue a one year individual programme of research. The
Theoretical Computer Science programme would normally terminate after a year. However, under appropriate circumstances, this first year of research can also be used in a progression to Year 2 of a PhD degree.

As a student of the Theoretical Computer Science MSc by Research programme, you will be fully integrated into one of our established computer science research groups and participate in research activities such as seminars, workshops, laboratories, and field work.

Key Features of Theoretical Computer Science

The Department of Computer Science is amongst the top 25 in the UK, with a growing reputation in research both nationally and internationally in computer science. It is home to world class researchers, excellent teaching programmes and fine laboratory facilities.

All postgraduate Computer Science programmes will provide you the transferable skills and knowledge to help you take advantage of the excellent employment and career development prospects in an ever growing and changing computing and ICT industry.

Facilities

The Department of Computer Science is well equipped for teaching, and is continually upgrading its laboratories to ensure equipment is up-to-date – equipment is never more than three years old, and rarely more than two. Currently, our Computer Science students use three fully networked laboratories: one, running Windows; another running Linux; and a project laboratory, containing specialised equipment. These laboratories support a wide range of software, including the programming languages Java, C# and the .net framework, C, C++, Haskell and Prolog among many; integrated programme development environments such as Visual Studio and Netbeans; the widely-used Microsoft Office package; web access tools; and many special purpose software tools including graphical rendering and image manipulation tools; expert system production tools; concurrent system modelling tools; World Wide Web authoring tools; and databases.

As part of the expansion of the Department of Computer Science, we are building the Computational Foundry on our Bay Campus for computer science and mathematical science.

Research

The results of the Research Excellence Framework (REF) 2014 show that we lead Wales in the field of Computer Science and are in the UK Top 20.

We are ranked 11th in the UK for percentage of world-leading research, and 1st in Wales for research excellence. 40% of our submitted research assessed as world-leading quality (4*).

Links with Industry

Each spring, Computer Science students prepare and present a poster about their project at a project fair – usually together with a system or software demonstration. The Department of Computer Science also strongly encourages students to create CVs and business cards to take along to the fair, as businesses and employers visit to view the range of projects and make contact with the graduating students.

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Take advantage of one of our 100 Master’s Scholarships or College of Science Postgraduate Scholarships to study Human Computer Interaction at Swansea University, the Times Good University Guide’s Welsh University of the Year 2017. Read more
Take advantage of one of our 100 Master’s Scholarships or College of Science Postgraduate Scholarships to study Human Computer Interaction at Swansea University, the Times Good University Guide’s Welsh University of the Year 2017. Postgraduate loans are also available to English and Welsh domiciled students. For more information on fees and funding please visit our website.

Computer Science is at the cutting edge of modern technology, and is developing rapidly and Swansea Computer Science graduates enjoy excellent employment prospects.

Computer Science now plays a part in almost every aspect of our lives - science, engineering, the media, entertainment, travel, commerce and industry, public services and the home.

The MSc by Research Human Computer Interaction enables students to pursue a one year individual programme of research. The Human Computer Interaction programme would normally terminate after a year. However, under appropriate circumstances, this first year of research can also be used in a progression to Year 2 of a PhD degree.

Students of the MSc by Research Human Computer Interaction programme will be fully integrated into one of our established research groups and participate in research activities such as seminars, workshops, laboratories, and field work.

Key Features

The Department of Computer Science is amongst the top 25 in the UK, with a growing reputation in research both nationally and internationally. It is home to world class researchers, excellent teaching programmes and fine laboratory facilities.

All postgraduate Computer Science programmes will provide you the transferable skills and knowledge to help you take advantage of the excellent employment and career development prospects in an ever growing and changing computing and ICT industry.

Facilities

The Department of Computer Science is well equipped for teaching, and is continually upgrading its laboratories to ensure equipment is up-to-date – equipment is never more than three years old, and rarely more than two. Currently, our Computer Science students use three fully networked laboratories: one, running Windows; another running Linux; and a project laboratory, containing specialised equipment. These laboratories support a wide range of software, including the programming languages Java, C# and the .net framework, C, C++, Haskell and Prolog among many; integrated programme development environments such as Visual Studio and Netbeans; the widely-used Microsoft Office package; web access tools; and many special purpose software tools including graphical rendering and image manipulation tools; expert system production tools; concurrent system modelling tools; World Wide Web authoring tools; and databases.

As part of the expansion of the Department of Computer Science, we are building the Computational Foundry on our Bay Campus for computer science and mathematical science.

Research

The results of the Research Excellence Framework (REF) 2014 show that we lead Wales in the field of Computer Science and are in the UK Top 20.

We are ranked 11th in the UK for percentage of world-leading research, and 1st in Wales for research excellence. 40% of our submitted research assessed as world-leading quality (4*).

Read less
Take advantage of one of our 100 Master’s Scholarships to study Visual and Interactive Computing at Swansea University, the Times Good University Guide’s Welsh University of the Year 2017. Read more
Take advantage of one of our 100 Master’s Scholarships to study Visual and Interactive Computing at Swansea University, the Times Good University Guide’s Welsh University of the Year 2017. Postgraduate loans are also available to English and Welsh domiciled students. For more information on fees and funding please visit our website.

Computer Science is at the cutting edge of modern technology, is developing rapidly and Swansea Computer Science graduates enjoy excellent employment prospects.

Computer Science now plays a part in almost every aspect of our lives - science, engineering, the media, entertainment, travel, commerce and industry, public services and the home.

The MSc by Research Visual and Interactive Computing enables students to pursue a one year individual programme of research. The Visual and Interactive Computing programme would normally terminate after a year. However, under appropriate circumstances, this first year of research can also be used in a progression to Year 2 of a PhD degree.

As a student of the MSc by Research Visual and Interactive Computing programme, you will be fully integrated into one of our established research groups and participate in research activities such as seminars, workshops, laboratories, and field work.

Key Features of the Visual and Interactive Computing

The Department of Computer Science is amongst the top 25 in the UK, with a growing reputation in research both nationally and internationally. It is home to world class researchers, excellent teaching programmes and fine laboratory facilities.

All postgraduate Computer Science programmes including Visual and Interactive Computing, MSc by Research will provide you the transferable skills and knowledge to help you take advantage of the excellent employment and career development prospects in an ever growing and changing computing and ICT industry.

Facilities

The Department of Computer Science is well equipped for teaching, and is continually upgrading its laboratories to ensure equipment is up-to-date – equipment is never more than three years old, and rarely more than two. Currently, our Computer Science students use three fully networked laboratories: one, running Windows; another running Linux; and a project laboratory, containing specialised equipment. These laboratories support a wide range of software, including the programming languages Java, C# and the .net framework, C, C++, Haskell and Prolog among many; integrated programme development environments such as Visual Studio and Netbeans; the widely-used Microsoft Office package; web access tools; and many special purpose software tools including graphical rendering and image manipulation tools; expert system production tools; concurrent system modelling tools; World Wide Web authoring tools; and databases.

As part of the expansion of the Department of Computer Science, we are building the Computational Foundry on our Bay Campus for computer science and mathematical science.

Research

The results of the Research Excellence Framework (REF) 2014 show that we lead Wales in the field of Computer Science and are in the UK Top 20.

We are ranked 11th in the UK for percentage of world-leading research, and 1st in Wales for research excellence. 40% of our submitted research assessed as world-leading quality (4*).

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Our MA Metalwork course gives design professionals and graduates the opportunity to deepen their skills and experience in the areas of forgework, foundry work and metalsmithing. Read more
Our MA Metalwork course gives design professionals and graduates the opportunity to deepen their skills and experience in the areas of forgework, foundry work and metalsmithing.

This course is for highly motivated and talented people who wish to work at the forefront of their creative discipline. It's a project-led and studio-based course with close tutorial guidance.

Rigorous research will encourage you to explore a wide range of approaches, from traditional to contemporary influences of art, craft, design and technology.

As a student on this course, you'll benefit from teaching by leading specialist designers, artists and crafts people. You'll create a range of objects and experiment with different materials and processes, to develop your creative thinking.

Throughout the course, you'll work closely alongside students from other fields such as textiles, jewellery, ceramics and glass. This will enable you to broaden your knowledge and incorporate elements from various disciplines into your practice.

Our Farnham campus offers extraordinary facilities with extensive workshops and equipment to support your study. It's also home to the Crafts Study Centre - a purpose-built museum, research centre and gallery dedicated to crafts.

Facilities

UCA Farnham provides first-rate facilities with extensive workshops and equipment to support your study. It's also home to the Crafts Study Centre - a purpose-built museum, research centre and gallery dedicated to crafts.

Industry Partners

This course has excellent support from:
-Worshipful Company of Ironmongers
-The Goldsmiths' Company
-The Worshipful Company of Pewterers
-Harral & Crook Metalsmiths
-Contemporary British Silversmiths
-The New Ashgate Trust
-The Jewellers and Silversmiths Network

Careers

Our course will equip you with a host of valuable and transferable skills. You may decide to become a self-employed artist, or forge a career within the craft and design industries, for example.

Recent graduates work as:
-Artists
-Designers
-Makers
-Arts administrators
-Gallery curators
-Teachers
-Writers

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