The recent growth in new media management has seen a rise in and demand for skilled creative media management professionals, who are not only confident in deploying media technologies and platforms but also in management practices, methods and experience to drive forward the latest media advances.
Your studies are based in our modern media labs in the Department of Media Arts and Communication. Many of our academic staff bring industry experience to their teaching. The course also includes a regular programme of industry speakers and client based projects, as well as a foundation for those wishing to move into media management roles within organisations, recognise existing skills and knowledge through a formal qualification, or start their own media business.
The course is made up of eight taught modules, plus a major linked project where you could work with or within an organisation. All modules are mandatory and have been tailored to match the in demand skills and experience of the creative media industry. The vast majority of teaching is in small groups (typically less than 20) allowing for bespoke delivery.
Students will gain an understanding of how to exploit the latest digital media technologies and platforms, across interactive, social and mobile content, as well as the management of digital media businesses, organisations and teams. The course uses industry-standard software and hardware tools such as Adobe and Apple software in well-equipped media studios and associated lab facilities. The course is designed to develop business awareness, entrepreneurial skills, management confidence and a portfolio of industry experience through client based media projects, industry networking and digital media industry insight.
You study a range of modules designed to prepare you for real world challenges. Typical projects may include • management of communication channels for promotion and marketing • creation of digital marketing campaigns • management of software solutions to engage audiences • management of knowledge dissemination across organisations • mobile media, social media and app design • insight into industry best practice • management of media people and teams • entrepreneurship and business skills.
The course has been designed in conjunction with industry professionals and aims to give you real world experience through working on live client briefs. You also work with the award winning Venture Matrix to enhance your employability and enterprise skills. Assessment is based primarily on individual project work, as well as team based projects and presentations. These projects allow students to access industry, network and build a portfolio of client based work.
Work based learning is also encouraged as part of the degree. Module teams will support students who wish to apply their studies directly to the work place. The Digital Media Management Project module in particular allows students to work with or within organisations on projects to enhance a company or organisation.
A number of industry days and events are also held on campus and within the Sheffield Cultural Industries Quarter where students can take part in workshops, talks, and exhibitions held by creative media industry representatives, professionals, and companies/ organisations. These activities give a window to the world of work and opportunities that lie ahead. They provide students with direct access to industry and exposure to opportunities within the industry.
The creative industries sector is vibrant, fast growing and brings immense benefit to developed economies. In the UK alone, the creative industries are worth over £77 billion a year and account for 5% of the economy, with exports of over £17 billion per annum. Skilled digital media management professionals are in demand to meet this phenomenal growth.
Typical careers would involve • managing or consulting on social media • digital PR • marketing • projects • products • digital media • communication strategies • entrepreneurship and digital innovation. In addition, students may find roles as • digital media designers • analysts • digital change leaders and innovators.
The Civil Engineering Graduate Diploma enables applicants with a degree in a related subject (for example mathematics, physics or geology) to take a qualifying year before moving into a Civil or Structural Engineering MSc programme. It offers a unique opportunity to be awarded a fully recognised Civil Engineering MSc after two years of study, opening the path to a career in civil engineering as a chartered engineer.
This bespoke programme provides grounding in fluids, soils, structures and materials engineering, and consists of second and third-year undergraduate core civil engineering subjects. Students are also allocated a civil engineering project which they are required to complete in pairs.
Students undertake modules to the value of 120 credits.
The programme consists of six core modules, one optional module and a research project.
You will need to choose one module from the optional list:
Students conduct a civil engineering research project over two terms, usually working in pairs.
Teaching and learning
The programme is delivered through a combination of lectures, tutorials, seminars and laboratory classes. The civil engineering project involves individual research and can include laboratory, computational or fieldwork depending on the nature of your project and your supervisor. It is usually completed in pairs. The programme also includes a field trip and a one-week Constructionarium visit.
Further information on modules and degree structure is available on the department website: Civil Engineering Grad Dip
Civil engineering graduates are readily employed by consultancies, construction companies and government departments.
Students who complete both this pre-qualifying year and a Civil Engineering MSc or an Earthquake Engineering and Disaster Management MSc, have excellent career prospects with leading civil and structural engineering companies.
The are excellent employment prospects for our graduates. There is international demand for multi-skilled, solutions-focused professionals who can take a holistic approach to solving problems.
UCL Civil, Environmental & Geomatic Engineering is an energetic and exciting multidisciplinary department with a long tradition of excellence in teaching and research, situated at the heart of London.
Our innovative research is at the forefront of engineering development. Our staff are leaders in their fields and often called upon for their detailed knowledge by the media, industry and policymakers.
This programme offers applicants without a first degree in civil engineering a unique opportunity to be awarded a fully recognised Civil Engineering MSc after two years of study, opening the path to a civil engineering career as a chartered engineer.
The Research Excellence Framework, or REF, is the system for assessing the quality of research in UK higher education institutions. The 2014 REF was carried out by the UK's higher education funding bodies, and the results used to allocate research funding from 2015/16.
The following REF score was awarded to the department: Civil, Environmental & Geomatic Engineering
60% rated 4* (‘world-leading’) or 3* (‘internationally excellent’)
Learn more about the scope of UCL's research, and browse case studies, on our Research Impact website.
Visit our website for more information on fees, scholarships, postgraduate loans and other funding options to study Materials Engineering at Swansea University - 'Welsh University of the Year 2017' (Times and Sunday Times Good University Guide 2017).
Engineering at Swansea University has key research strengths in materials for aerospace applications and steel technology. As a student on the Master's course in Materials Engineering, you will be provided with the depth of knowledge and breadth of abilities to meet the demands of the international materials industry.
Through the MSc Materials Engineering course you will be provided with training and experience in a broad range of topic areas, including metallurgy and materials selection, modern methods used for engineering design and analysis, the relationship between structure, processing and properties for a wide range of materials, materials and advanced composite materials, structural factors that control the mechanical properties of materials, and modern business management issues and techniques.
The MSc Materials Engineering course is an excellent route for those who have a first degree in any scientific or technical subject and would like to become qualified in this field of materials engineering.
MSc in Materials Engineering programme is modular in structure. Students must obtain a total of 180 credits to qualify for the degree. This is made up of 120 credits in the taught element (Part One) and a project (Part Two) that is worth 60 credits and culminates in a written dissertation. Students must successfully complete Part One before being allowed to progress to Part Two.
The part-time scheme is a version of the full-time equivalent MSc scheme, and as such it means lectures are spread right across each week and you may have lectures across every day. Due to this timetabling format, the College advises that the scheme is likely to suit individuals who are looking to combine this with other commitments (typically family/caring) and who are looking for a less than full-time study option.
Those candidates seeking to combine the part-time option with full-time work are unlikely to find the timetable suitable, unless their job is extremely flexible and local to the Bay Campus.
Modules on the MSc Materials Engineering course can vary each year but you could expect to study:
Environmental Analysis and Legislation
Communication Skills for Research Engineers
Simulation Based Product Design
Aerospace Materials Engineering
Structural Integrity of Aerospace Metals
Environmental Analysis and Legislation
Physical Metallurgy of Steels
The MSc Materials Engineering course at Swansea University is accredited by the Institute of Materials, Minerals and Mining (IOM3).
This degree is accredited as meeting the requirements for Further Learning for a Chartered Engineer (CEng) for candidates who have already acquired an Accredited CEng (Partial) BEng(Hons) or an Accredited IEng (Full) BEng/BSc (Hons) undergraduate first degree.
Accreditation is a mark of assurance that the degree meets the standards set by the Engineering Council in the UK Standard for Professional Engineering Competence (UK-SPEC). An accredited degree will provide you with some or all of the underpinning knowledge, understanding and skills for eventual registration as an Incorporated (IEng) or Chartered Engineer (CEng). Some employers recruit preferentially from accredited degrees, and an accredited degree is likely to be recognised by other countries that are signatories to international accords.
Our new home at the innovative Bay Campus provides some of the best university facilities in the UK, in an outstanding location.
Within Engineering at Swansea University there are state-of-the-art facilities specific to Materials Engineering.
- Comprehensive computer systems for specialist and general purposes.
- World-leading equipment for characterisation of the mechanical properties of metallic, ceramic, polymeric and composite materials.
- Extensive range of laboratories housing scanning electron microscopes with full microanalysis and electron backscatter diffraction capabilities.
Materials engineering underpins almost all engineering applications and employment prospects are excellent.
Employment can be found in a very wide range of sectors, ranging from large-scale materials production through to R&D in highly specialised advanced materials in industries that include aerospace, automotive, manufacturing, sports, and energy generation, as well as consultancy and advanced research.
Materials engineering knowledge is vital in many fields and our graduates go on to successful careers in research and development, product design, production management, marketing, finance, teaching and the media, and entrepreneurship.
The internationally leading materials research conducted at Swansea is funded by prestigious organisations including:
The Institute of Structural Materials at Swansea is a core member of the Rolls-Royce University Technology Centre in Materials.
This venture supports a wide ranging research portfolio with a rolling value of £6.5 million per annum addressing longer term materials issues.
Over £1m funding has been received from Airbus and the Welsh Government in the last three years to support structural composites research and development in the aerospace industry and to support composites activity across Wales.
Funding of over £6 million to continue our very successful postgraduate programmes with Tata Steel.
Other companies sponsoring research projects include Akzo Nobel, Axion Recycling, BAE Systems, Bayer, Cognet, Ford, HBM nCode, Jaguar Land Rover, Novelis, QinetiQ, RWE Innogy, Timet, TWI (Wales), as well as many smaller companies across the UK.
These industrial research links provide excellent opportunities for great research and employment opportunities.
The Research Excellence Framework (REF) 2014 ranks Engineering at Swansea as 10th in the UK for the combined score in research quality across the Engineering disciplines.
The REF assesses the quality of research in the UK Higher Education sector, assuring us of the standards we strive for.
The REF shows that 94% of research produced by our academic staff is of World-Leading (4*) or Internationally Excellent (3*) quality. This has increased from 73% in the 2008 RAE.
Research pioneered at the College of Engineering harnesses the expertise of academic staff within the department. This ground-breaking multidisciplinary research informs our world-class teaching with several of our staff leaders in their fields.
The use of digitally networked systems is increasing in every industry. The developments currently unfolding under the buzzword "Industry 4.0" are essentially based on the comprehensive digital representation of every step in the industrial production value chain. From the planning phase through to the design/draft and production process to monitoring products over their service-life, virtual product and process models are networked with each other to expedite development processes, raise product quality, and optimise production. That is why these developments require well-trained specialists at the interface of computer science and engineering. This course of study, which was jointly developed by participants from the professorships of Engineering and Computer Science and Media at the Bauhaus-Universität Weimar, is designed to provide you flexible and interdisciplinary training to meet the challenges you’ll face in the professional world of tomorrow. The Digital Engineering Master's programme places a high premium on introducing you to current research issues that are jointly defined and supervised by industry partners at an early state. The Digital Bauhaus Lab is a state-of-the-art university research facility offering optimal conditions for success.
The consecutive Digital Engineering Master's programme combines academically specialised expertise from the Civil Engineering and Computer Science and Media disciplines. The coursework is centred on a practical transfer of methodical interrelations between engineering and computer science for complete digitalisation of design, manufacturing, and application processes. In this international Master's programme you will use a range of modelling concepts as a basis for experimentation with complex processes in computer-aided modelling, simulation and visualisation of engineering problems. In addition, you will deepen your knowledge of information-theory methods of data generation and data handling. The aim is the representation, interpretation, evaluation, and optimisation of interdisciplinary processes in construction, mechanical engineering and other industrial fields.
This prepares graduates of the English-language Digital Engineering Master's programme in a targeted way for work in the field of virtual product and process modelling and optimisation. They are active in a diverse range of fields such as technical administration, model management, engineering analysis and consulting, technical data analysis, as well as software and product development for digital networking in industry.
The Master's programme in Digital Engineering comprises 120 ECTS and is completed after four semesters of study. In the first two semesters, all students receive foundational courses in order to prepare them to participate in more advanced courses. You will be offered both compulsory and elective courses covering the two core areas of computer science and engineering. Depending on your previous knowledge, we will develop your individual module plan with an emphasis on either engineering or computer science.
From the third semester onward, you will deepen your technical knowledge in the three areas of modelling, simulation and validation, and visualization and data science. In each of these areas, you will have the opportunity to choose elective courses that allow you to create your own specialisation. The curriculum is complemented by a research project with partners from the professional community, as well as elective modules in the Media and Civil Engineering faculties or the Language Centre of the Bauhaus-Universität Weimar. During the fourth semester, you will write and defend your Master's thesis. In the process, you will receive support from professors and external industry partners, who will support you in the context of consultations.
This degree mirrors the two-year Masters programme structure that is common in the USA, and is an ideal stepping stone to a PhD or a career in industry.
The optional professional placement component gives you the opportunity to gain experience from working in industry, which cannot normally be offered by the standard technically-focused one-year Masters programme.
The Electronic Engineering Euromasters programme is designed for electronic engineering graduates and professionals with an interest in gaining further qualifications in advanced, cutting-edge techniques and technologies. Current pathways offered include:
Please note that at applicant stage, it is necessary to apply for the Electronic Engineering (Euromasters). If you wish to specialise in one of the other pathways mentioned above, you can adjust your Euromaster programme accordingly on starting the course.
This programme is studied full-time over 24 months. It consists of eight taught modules, two modules based on experimental reflective learning and an extended project.
Please view the website for an example module listing.
The MSc Euromasters complies with the structure defined by the Bologna Agreement, and thus it is in harmony with the Masters programme formats adhered to in European universities. Consequently, it facilitates student exchanges with our partner universities in the Erasmus Exchange programme.
A number of bilateral partnerships exist with partner institutions at which students can undertake their project. Current partnerships held by the Department include the following:
The taught postgraduate degree programmes of the Department are intended both to assist with professional career development within the relevant industry and, for a small number of students, to serve as a precursor to academic research.
Our philosophy is to integrate the acquisition of core engineering and scientific knowledge with the development of key practical skills (where relevant). To fulfil these objectives, the programme aims to:
A graduate from this MSc programme should:
Enhanced capabilities of MSc (Euromasters) graduates:
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.
As a Master of Engineering (ME) graduate you will have the opportunity to either seek employment as a professional engineer, or start a research career.
The ME normally takes 12 months to complete full-time. It builds on prior study at undergraduate level, such as the four-year BE(Hons) or BSc(Tech). The degree requires 120 points, which can either be made up of 30 points in taught papers and a 90-point dissertation (research project), or one 120-point thesis.
If you enrol in an ME via the Faculty of Science & Engineering you can major in Engineering, and your thesis topic may come from our wide range of study areas such as biological engineering, chemical engineering, civil engineering, mechanical engineering, materials engineering, environmental engineering and electronic engineering.
The Faculty of Science & Engineering fosters collaborative relationships between science, engineering, industry and management. The Faculty has developed a very strong research base to support its aims of providing you with in-depth knowledge, analytical skills, innovative ideas, and techniques to translate science into technology in the real world.
You will have the opportunity to undertake research with staff who are leaders in their field and will have the use of world-class laboratory facilities. Past ME students have worked on projects such as a ‘snake robot’ for disaster rescue and a brain-controlled electro-mechanical prosthetic hand.
The University of Waikato School of Engineering’s specialised laboratories includes the Large Scale Lab complex that features a suite of workshops and laboratories dedicated to engineering teaching and research. These include 3D printing, a mechanical workshop and computer labs with engineering design software.
The computing facilities at the University of Waikato are among the best in New Zealand, ranging from phones and tablets for mobile application development to cluster computers for massively parallel processing. Software engineering students will have 24 hour access to computer labs equipped with all the latest computer software.
Depending on the thesis topic studied, graduates of this degree may find employment in the research and development department in a range of engineering industries, including energy companies, environmental agencies, government departments, biomedical/pharmaceutical industries, private research companies, universities, food and dairy industries, electronics, agriculture, forestry and more. The ME can also be a stepping stone to doctoral studies.
Students will gain deep knowledge and skills in cutting-edge computational techniques for real world science and engineering applications to meet industry demand.
The Applied Computational Science and Engineering MSc will educate future domain-specialists in computational science. This course will expand your knowledge of numerical methods, computational science, and how to solve large scale problems by applying novel science and engineering approaches. It is suitable for graduates of disciplines including mathematics and physical sciences, geophysics and engineering, and computer science.
Students will have the chance to participate in individual and group research projects as well as to write reports and present technical work, developing the project management and numerical skills that are desired by employers.
The study programme consists of eight taught modules, and one individual research project which accounts for one third of the study programme.
Modern programming methods
Modelling dynamical processes
Applying computational science
Patterns for parallel programming
Inversion and optimisation
Term 3 (summer)
This immersive, hands-on MSc course will enable students to develop their skills and techniques for a range of science and engineering applications utilising High Performance Computing resources. Students will learn alongside world-class researchers in the Department of Earth Science and Engineering. There will be a strong emphasis on high productivity problem solving using modern computational methods and technologies, including computer code development and parallel algorithms.
Applicants who want to pursue analytical careers in industry geoscience and engineering are a target for this course. Graduates will develop the skills necessary to enter the modern industrial workforce. This MSc will also prepare for your PhD studies in fields such as computational techniques, simulation, numerical modelling, optimisation and inversion, heat transfer, and machine learning applications.
The Applied Computational Science and Engineering MSc programme will ensure that students are able to apply appropriate computational techniques to understand, define and develop solutions to a range of science and engineering problems. You will have the chance to participate in individual and group research projects as well as to write reports and present technical work, developing the project management and numerical skills desired by employers.
Duration: 1 year full-time
Start Date: October 2018
Campus: South Kensington, London
ECTS: 90 Credits
Please contact Postgraduate Education Manager, Samantha Symmonds, with any queries: [email protected]
The Applied Computational Science and Engineering MSc is subject to College approval.