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Masters Degrees (Laboratory Technology)

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Solving global water problems requires a multidisciplinary approach of knowledge and skills. That is why the Wetsus Insitute and three Dutch universities offer a joint degree in Water Technology. Read more
Solving global water problems requires a multidisciplinary approach of knowledge and skills. That is why the Wetsus Insitute and three Dutch universities offer a joint degree in Water Technology.

The master Water Technology is a two year programme offered jointly by Wageningen University, University Twente and University of Groningen with all education being provided at the Technological Top Institute for Water technology (TTIW Wetsus), in Leeuwarden.

In the field of water technology, breakthrough technological developments are required. Not only to enable the export ambitions of the water sector but also to solve global threats and challenges in society.

The main added value of the course lies in the multidisciplinary study of biotechnology and separation technology. Such a combined technological approach may offer a solution to global developments, within business and society, and have a worldwide impact on the demand for and use of water.

This program will qualify you as the expert who is able to participate in resolving world-wide water issues. It enables students to complement their Bachelor of Sciences diploma with scientific knowledge and capabilities that they need for a successful career in the dynamic international setting of business and research.

Why in Groningen?

- a multidisciplinary research program: cooperation with three Dutch universities and a Technological Top Insitute
- Water Technology is an area of expertise in which the Netherlands has gained an international reputation
- Commercial parties are involved in Wetsus and help to define and guide the research program

Job perspectives

The study domain is becoming more and more relevant due to the urgent need for new technologies to meet the global water problems. Water technology for public drinking water production and sewer water treatment is a very large market. Further, the largest use of fresh water is for irrigation purposes.

The industrial water supply and industrial waste water treatment also represent a significant market. There is no question that business involved in water technology will grow tremendously. Besides this human capital is a basic condition to guarantee the success and continuity of the development of sustainable technologies and a European know-how economy in water technology. In many EU countries the lack of talented technological professionals is becoming an increasingly limiting factor. The program prepares students for a professional position in the broad area of water technology. Graduates have good national and international career prospects in business and research.

Job examples

- Consultant or manager at a development project
- Designer of purification processes
- R&D department of companies, e.g. Arcadis or Philips
- PhD, starting a scientific career

Collaboration, Integration, and Top Level Research

As a student Water Technology you will be in the center of the multidisciplinary laboratory of Wetsus, in which 80% of the research will be carried out. Wetsus is situated in Leeuwarden, the Netherlands. By inviting all the researchers to one location, maximal cooperation and creativity is generated. The researchers are seconded by the participating EU-universities at Wetsus, but the universities carry scientific responsibility of the projects.

In this way, an enormous intellectual and creative power will be focused on water technology and at the same time knowledge capacity will be build up by all the participating universities.

The Netherlands is Europe's leading country in water process technology. The Dutch government focuses in her innovation policy on water and has appointed Leeuwarden as the focal point for water technology development. This results in a supportive government policy in the form of enabling subsidies for water research and innovation. Around the Wetsus research and education facilities, a high-tech water campus is realised to concentrate know how, entrepreneurship, talent and venture capital. This attracts starting companies as well as research centers of large companies.

Wetsus is part of the Dutch Innovation Program on Water Technology. The innovation program aims for the development of sustainable water treatment technology with a strong focus on export. Wetsus, operating as as Technological Top Institute, takes care of the pre-competitive technology development within this program. Wetsus focuses on the research and development of entirely new concepts and on breakthrough improvements of existing technology.

In both cases, an entirely new approach has been chosen whereby the basic principle is always the integration of various knowledge disciplines. In addition to collaboration between industry and universities, there is also unique scientific collaboration within Wetsus. Many scientific chairs cooperate in the program. Leading researchers from various universities and other research institutes can physically work side-by-side in the Wetsus laboratory. This unique collaboration brings synergy and new creativity to the search for new sustainable water treatment technology.

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This award is offered within the Postgraduate Scheme in Health Technology, which aims to provide professionals in Medical Imaging, Radiotherapy, Medical Laboratory Science, Health Technology, as well as others interested in health technology, with an opportunity to develop advanced levels of knowledge and skills. Read more

Programme Aims

This award is offered within the Postgraduate Scheme in Health Technology, which aims to provide professionals in Medical Imaging, Radiotherapy, Medical Laboratory Science, Health Technology, as well as others interested in health technology, with an opportunity to develop advanced levels of knowledge and skills.

A. Advancement in Knowledge and Skill
‌•To develop specialists in their respective professional disciplines to enhance their career paths;
‌•To broaden students' exposure to health science and technology to enable them to cope with the ever-changing demands of work; and
‌•To provide a laboratory environment for testing problems encountered at work.

Students develop intellectually, professionally and personally while advancing their knowledge and skills in Medical Laboratory Science. The specific aims of this award are:
‌•To broaden and deepen students' knowledge and expertise in Medical Laboratory Science;
‌•To introduce students to advances in selected areas of diagnostic laboratory techniques;
‌•‌To develop in students an integrative and collaborative team approach to the investigation of common diseases;
‌•To foster an understanding of the management concepts that are relevant to clinical laboratories; and
‌•To develop students' skills in communication, critical analysis and problem solving.

B. Professional Development
‌•To develop students' ability in critical analysis and evaluation in their professional practices;
‌•To cultivate within healthcare professionals the qualities and attributes that are expected of them;
‌•To acquire a higher level of awareness and reflection within the profession and the healthcare industry to improve the quality of healthcare services; and
‌•To develop students' ability to assume a managerial level of practice.

C. Evidence-based Practice
‌•To equip students with the necessary research skills to enable them to perform evidence-based practice in the delivery of healthcare service.

D. Personal Development
‌•To provide channels for practising professionals to continuously develop themselves while at work; and
‌•To allow graduates to develop themselves further after graduation.

Programme Characteristics

Our laboratories are well-equipped to support students in their studies, research and dissertations. Our specialised equipment includes a flow cytometer, cell culture facilities, basic and advanced instruments for molecular biology research (including thermal cyclers, DNA sequencers, real-time PCR systems and an automatic mutation detection system), microplate systems for ELISA work, HPLC, FPLC, tissue processors, automatic cell analysers, a preparative ultracentrifuge and an automated biochemical analyser.

This programme is accredited by the Institute of Biomedical Science (UK), and graduates are eligible to apply for Membership of the Institute.

Programme Structure

The Postgraduate Scheme in Health Technology consists of the following awards:
‌•MSc in Medical Imaging and Radiation Science
‌•MSc in Medical Laboratory Science

A range of subjects that are specific to the Medical Laboratory Science profession, and a variety of subjects of common interest and value to all healthcare professionals, are offered. In general, each subject requires attendance on one evening per week over a 13-week semester.

Award Requirements

Students must complete 1 Compulsory Subject (Research Methods & Biostatistics), 4 Core Specialism Specific Subjects, 2 Elective Subjects (from any subjects within the Scheme) and a research-based Dissertation. They are encouraged to select a dissertation topic that is relevant to their professional and personal interests.

Students who have successfully completed 30 credits, but who have taken fewer than the required 4 Core Specialism Specific Subjects, will be awarded a generic MSc in Health Technology without a specialism award.

Students who have successfully completed 18 credits, but who decide not to continue with their course of MSc study, may request to be awarded a Postgraduate Diploma (PgD) as follows:
‌•PgD in a specialism if 1 Compulsory Subject, 4 Core Subjects and 1 Elective Subject are successfully completed; or
‌•PgD in Health Technology (Generic) if 1 Compulsory Subject and any other 5 Subjects within the Scheme are successfully completed.

Core Areas of Study

The following is a list of the Core Medical Laboratory Science Subjects. Some subjects are offered only in alternate years.

•Integrated Medical Laboratory Science
‌•Advanced Topics in Health Technology
‌•Clinical Applications of Molecular Diagnostics in Healthcare
‌•Clinical Chemistry
‌•Epidemiology
‌•Haematology & Transfusion Science
‌•Histopathology & Cytology
‌•I‌mmunology
‌•Medical Microbiology
‌•Molecular Technology in the Clinical Laboratory
‌•Workshops on Advanced Molecular Diagnostic Technology

Having selected the requisite number of subjects from the Core list, students can choose the remaining Core Subjects or other subjects available in this Scheme as Elective Subjects.

The two awards within the Scheme share a similar programme structure, and students may take subjects across disciplines. For subjects offered within the Scheme by the other discipline of study, please refer to the information on the MSc in Medical Imaging and Radiation Science.

English Language Requirements

If you are not a native speaker of English, and your Bachelor's degree or equivalent qualification is awarded by institutions where the medium of instruction is not English, you are expected to fulfil the University’s minimum English language requirement for admission purpose. Please refer to the "Admission Requirements" http://www51.polyu.edu.hk/eprospectus/tpg/admissions-requirements section for details.

Additional Document Required
Transcript / Certificate

Other Information
Suitable candidates may be invited to attend interviews.

How to Apply

For latest admission info, please visit [email protected] http://www51.polyu.edu.hk/eprospectus/tpg and eAdmission http://www.polyu.edu.hk/admission

Enquiries

For further information, please contact:
Telephone: (852) 3400 8653
Fax: (852) 2362 4365
E-mail:

For more details of the programme, please visit [email protected] http://www51.polyu.edu.hk/eprospectus/tpg/2016/55005-mmf-mmp website.

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The Water Technology programme is a two year programme with a joint degree. The programme is offered jointly by Wageningen University, University Twente and University of Groningen with education being provided at the Technological Top Institute for Water technology (TTIW Wetsus), in Leeuwarden. Read more

MSc Water Technology

The Water Technology programme is a two year programme with a joint degree. The programme is offered jointly by Wageningen University, University Twente and University of Groningen with education being provided at the Technological Top Institute for Water technology (TTIW Wetsus), in Leeuwarden

Programme summary

There are a lot of new and existing global problems related to the availability and quality of water for personal, agricultural and industrial use. And these problems require sustainable solutions with a minimal impact on the environment. Water technology has unfortunately not been a focal point of most academic research and education programmes, despite its enormous importance to society. Instead, the expertise of various research groups is usually concentrated on other processes and in some cases, only later dedicated to water treatment in spin-off projects. New technologies will be necessary to develop new concepts for the treatment of waste water. And also for the production of clean water from alternative sources like salt (sea) water, waste water or humid air in order to minimise the use of precious groundwater. These challenges require academically trained experts who can think out-of-the-box and help to find practical solutions in the near future. A dedicated joint Master Water Technology programme has been created to train and educate these experts.

The MSc Water Technology is situated in Leeuwarden, the capital of water technology, and is offered jointly by three Dutch universities: Wageningen University, the University of Twente and the University of Groningen. A combined technological approach, based on state-of-the-art universities in science and technology, will search for solutions to several developments within business and society; with a worldwide impact on the demand for and use of water. One dedicated Master programme with joint degree allows for flexibility and can be adapted to the changing needs of the labour market. Wageningen University offers a strong focus on environmental sciences, the University of Twente on science and technology, and the University of Groningen on fundamental sciences. Students will be educated in the multidisciplinary laboratory of the technological top institute for water technology called Wetsus.

The MSc Water Technology programme specifically targets students interested in beta science and technology. The programme offers a unique combination of scientific insights and technological applications from the field of Biotechnology and Chemical Engineering. This combined approach for problem solving within the global framework of water problems is an asset to the programme. The programme is a valuable addition for postgraduate students with a completed bachelor degree in Environmental Engineering, Chemical Engineering and Biotechnology; or in related fields with a strong knowledge of mathematics, physics, chemistry and/or biology, and with affinity of water processes. Students are challenged with examples and case studies of real (research) problems that they might encounter as water professionals.

Students apply for the MSc Water Technology programme at Wageningen University, but will be registered at the other two universities as well. They will have access to the facilities of all three universities. Upon the successful completion of the programme, students receive one joint degree MSc Water Technology issued by all participating universities.

Specialisations

There are no official specialisations within the programme Water Technology. Students specialise themselves by doing a thesis within one of the research fields. Some examples are: Priority compounds, Virus Control, Applied water physics, Desalination, Concentrates, Biofouling, Aquatic worms, Advanced waste water treatment, Algae, Separation at source, Resource recovery, Membrane processes and operation for wastewater treatment and reuse and Sensoring.

Your future career

This study domain is becoming more and more relevant due to the urgent need for new technologies to meet global water problems. Water technology for public drinking water production and sewage water treatment is a very large market. Furthermore, the largest use of fresh water is for irrigation purposes. The industrial water supply and industrial waste water treatment also represent a significant market. There is no question that businesses involved in water technology will grow tremendously. Besides this, human capital is a basic condition to guarantee the success and continuity of the development of sustainable technologies. In many EU countries, the lack of talented technological professionals is becoming an increasingly limiting factor. The programme prepares students for a professional position in the broad area of water technology. Graduates have good national and international career prospects in business and research.

Student Stefanie Stubbé.
"Wetsus gave me the opportunity to get personalized education: teachers that take the time for you and fellow students that challenge and collaborate with you at the same time. Water technology is going to be huge in the future; I already experienced that at several companies when I searched for an internship. Although it is sometimes hard work and far away from the "city-life" in the Netherlands; I've never regretted my choice to start this Master!"

Related programmes:
MSc Biotechnology
MSc Environmental Sciences

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The Technology Management Group of UCL’s Mullard Space Science Laboratory (MSSL) and UCL Centre for Systems Engineering (UCLse) have pooled expertise to develop this exciting new programme, which aims to equip students with the knowledge and skills necessary to develop a career in technology management or engineering management. Read more
The Technology Management Group of UCL’s Mullard Space Science Laboratory (MSSL) and UCL Centre for Systems Engineering (UCLse) have pooled expertise to develop this exciting new programme, which aims to equip students with the knowledge and skills necessary to develop a career in technology management or engineering management.

Degree information

Students learn about the challenges and opportunities of working with new and legacy technology, and are introduced to key concepts such as technology maturity, lifecycles, risk, reliability and resilience. Systems and strategic thinking is promoted throughout, and the importance of the enterprise context. The research elements aim to instil a deep knowledge of at least one area of technology management with industrial relevance.

Students undertake modules to the value of 180 credits.

The programme consists of four core taught modules (60 credits), two optional taught modules (30 credits) and three research modules (90 credits).

Core modules
-Business Environment
-Lifecycle Management
-Risk, Reliability, Resilience
-Technology Strategy

Optional modules - students choose two from the following:
-Defence Systems
-Environmental Systems*
-Project Management*
-Rail Systems
-Responsible Science and Innovation*
-Spacecraft Systems
-Systems Design
-Systems, Society and Sustainability*

*These modules are delivered by other UCL departments (subject to availability)

Research modules - students undertake a structured research programme comprising:
-Emerging Technology Review (group project, 15 credits)
-Technology Management Project Concept (15 credits)
-Technology Management Research Project (60 credits, including a 12,000-word dissertation)

Teaching and learning
Teaching methods incorporate a mix of lectures and case study-based teaching, and groupwork, in which students will be challenged to come up with novel ideas, lead groups to innovative solutions and manage complex tasks under tight time pressure. Assessment is through coursework, examinations, written reports and presentations, and the dissertation.

Careers

UCLse has strong links with companies in the aerospace, communications, construction, energy, transport and defence sectors and our Industrial Advisory Board ensures relevance to industry.

Typical career destinations might include:
-Graduate Systems Engineer (Airbus, BAE Systems, Boeing, GE, GDUK, SELEX, THALES, Ultra Electronics)
-Technology/Business Consultant (Accenture, Capgemini, Deloitte, Ernst & Young, KPMG, PwC).

Employability
Drawing on our experience of providing short training courses for industry (such as the Project Manager training courses we run for the European Space Agency) we will integrate a large amount of skills development into our teaching, including skills in communication, negotiation, leadership and motivation, decision-making, and managing complex, time-constrained tasks, all of which will be beneficial for future careers.

Why study this degree at UCL?

The programme blends general principles of management with technology-focused teaching and integrates aspects of systems engineering and project management; the UCL Mullard Space Science Laboratory has nearly fifty years’ experience of developing cutting-edge spacecraft technology, and the programme content builds on research conducted by the Technology Management Group at MSSL in these areas.

The programme contains two compulsory modules relevant to leadership and entrepreneurship (Technology Strategy, and Business Environment). These modules will give students the knowledge and skills necessary to lead new technology-driven enterprises.

The curriculum has an international focus, with case studies from major technology companies around the world including Apple, Samsung and Lenovo. A number of industrial visits are anticipated and this ‘real world’ exposure to organisations will help contextualise the theory and techniques learnt.

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Make future breakthroughs within healthcare with the MSc Biomedical Engineering with Healthcare Technology Management course. This course is for inquisitive students who want to design, develop, apply or even manage the use of cutting-edge methods and devices that will revolutionise healthcare. Read more
Make future breakthroughs within healthcare with the MSc Biomedical Engineering with Healthcare Technology Management course.

Who is it for?

This course is for inquisitive students who want to design, develop, apply or even manage the use of cutting-edge methods and devices that will revolutionise healthcare. It is open to science and engineering graduates and those working within hospitals or related industry who want to work in healthcare organisations, in the medical devices industry, or in biomedical engineering research.

The course will suit recent graduates and/or clinical engineers with a technical background or those working in healthcare who want to move into a management position.

Objectives

With several medical conditions requiring extensive and continuous monitoring and early and accurate diagnosis becoming increasingly desirable, technology for biomedical applications is rapidly becoming one of the key ingredients of today and tomorrow’s medical care.

From miniaturised home diagnostic instruments to therapeutic devices and to large scale hospital imaging and monitoring systems, healthcare is becoming increasingly dependent on technology. This course meets the growing need for biomedical and clinical engineers across the world by focusing on the design of medical devices from conception to application.

One of the few accredited courses of its kind in London, the programme concentrates on the use of biomedical-driven engineering design and technology in healthcare settings so you can approach this multidisciplinary topic from the biological and medical perspective; the technological design and development perspective; and from the perspective of managing the organisation and maintenance of large scale equipment and IT systems in a hospital.

This MSc in Biomedical Engineering with Healthcare Technology Management course has been created in consultation and close collaboration with clinicians, biomedical engineering researchers and medical technology industrial partners. The programme fosters close links with the NHS and internationally-renowned hospitals including St. Bartholomew's (Barts) and the Royal London Hospital and Great Ormond street so that you can gain a comprehensive insight into the applied use and the management of medical technology and apply your knowledge in real-world clinical settings.

Placements

In the last few years there have been some limited opportunities for our top students to carry out their projects through placements within hospital-based healthcare technology groups or specialist London-based biomedical technology companies. Placement-based projects are also offered to selected students in City’s leading Research Centre for Biomedical Engineering (RCBE). As we continue our cutting-edge research and industrial and clinical collaborations, you will also have this opportunity.

Academic facilities

As a student on this course you will have the opportunity to work with cutting-edge test and measurement instrumentation – oscilloscopes, function generators, analysers – as well as specialist signal generators and analysers. The equipment is predominantly provided by the world-leading test and measurement equipment manufacturer Keysight, who have partnered with City to provide branding to our electronics laboratories. You also have access to brand new teaching labs and a dedicated postgraduate teaching lab. And as part of the University of London you can also become a member of Senate House Library for free with your student ID card.

Teaching and learning

You will be taught through face-to-face lectures in small groups, where there is a lot of interaction and feedback. Laboratory sessions run alongside the lectures, giving you the opportunity to develop your problem-solving and design skills. You also learn software skills in certain modules, which are taught inside computer labs. We also arrange hospital visits so you gain hands-on experience of different clinical environments.

We arrange tutorials for setting coursework, highlight important subject areas, conduct practical demonstrations, and offer support with revision. You are assessed by written examinations at the end of each term, and coursework assignments, which are set at various times throughout the term.

You also work towards an individual project, which is assessed in the form of a written thesis and an oral examination at the end of the summer. The project can be based on any area of biomedical engineering, telemedicine or technology management and will be supervised by an academic or clinical scientist with expertise in the subject area. Many projects are based in hospital clinical engineering departments, or if you are a part-time student, you can base the project on your own workplace. You will have regular contact with the supervisor to make sure the project progresses satisfactorily. Some of the programme’s current students are working on a project focusing on devices that use brain signals to move external objects such as a remote control car and a prosthetic arm.

Some of the previous projects students have worked on include:
-A cursor controller based on electrooculography (EOG)
-Modelling a closed-loop automated anaesthesia system
-Design of a movement artefact-resistant wearable heart rate/activity monitor
-Review of progress towards a fully autonomous artificial mechanical heart
-Design of smartphone-based healthcare diagnostic devices and sensors.

If you successfully complete eight modules and the dissertation you will be awarded 180 credits and a Masters level qualification. Alternatively, if you do not complete the dissertation but have successfully completed eight modules, you will be awarded 120 credits and a postgraduate diploma. Completing four modules (60 credits) will lead to a postgraduate certificate.

Modules

Along with the 60 credit dissertation eight core modules cover diverse subject areas including biomedical electronics and instrumentation, technology infrastructure management, as well as the latest advances in medical imaging and patient monitoring.

The course includes a special module which gives you an introduction to anatomy, physiology and pathology designed for non-clinical science graduates.

The most innovative areas of biomedical and clinical engineering are covered and the content draws from our research expertise in biomedical sensors, bio-optics, medical imaging, signal processing and modelling. You will learn from academic lecturers as well as clinical scientists drawn from our collaborating institutions and departments, which include:
-Charing Cross Hospital, London
-The Royal London Hospital
-St Bartholomew's Hospital, London
-Basildon Hospital
-Department of Radiography, School of Community and Health Sciences, City, University of London

Modules
-Anatomy, Physiology and Pathology (15 credits)
-Physiological Measurement (15 credits)
-Biomedical Instrumentation (15 credits)
-Medical Electronics (15 credits)
-Cardiovascular Diagnostics and Therapy (15 credits)
-Medical Imaging Modalities (15 credits)
-Clinical Engineering Practice (15 credits)
-Healthcare Technology Management (15 credits)

Career prospects

This exciting MSc programme offers a well-rounded background and specialised knowledge for those seeking a professional career as biomedical engineers in medical technology companies or research groups but is also uniquely placed for offering skills to clinical engineers in the NHS and international healthcare organisations.

Alumnus Alex Serdaris is now working as field clinical engineer for E&E Medical and alumna Despoina Sklia is working as a technical support specialist at Royal Brompton & Harefield NHS Foundation Trust. Other Alumni are carrying out research in City’s Research Centre for Biomedical Engineering (RCBE).

Applicants may wish to apply for vacancies in the NHS, private sector or international healthcare organisations. Students are encouraged to become members of the Institute of Physics and Engineering in Medicine (IPEM) where they will be put in touch with the Clinical Engineering community and any opportunities that arise around the UK during their studies. Application to the Clinical Scientist training programme is encouraged and fully supported.

The Careers, Student Development & Outreach team provides a professional, high quality careers and information service for students and recent graduates of City, University of London, in collaboration with employers and other institutional academic and service departments. The course also prepares graduates who plan to work in biomedical engineering research and work within an academic setting.

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Imaginative, original and full of exciting ideas - if this sounds like you, then our MSc in Creative Technology could be your perfect course. Read more
Imaginative, original and full of exciting ideas - if this sounds like you, then our MSc in Creative Technology could be your perfect course. It's open to students from any background who are interested in combining technical and creative skills to create the technologies and experiences of the future. We'll give you the opportunity to learn about and experiment with different types of technology and use them to design and develop your own inventions.


Why study MA/MSc Creative Technology at Middlesex?

Technology is becoming increasingly important to art, design and culture and the skills associated with the once-separate creative and technical worlds overlap more and more. We welcome students from any background onto this course– it's an unusual opportunity for students with diverse skills to work together, and it's this variety that gives it so much character.

This is a highly practical course, assessed entirely through project work, with an emphasis on collaboration and experimentation. We want you to benefit from our creative, academic and technical expertise, and we like nothing more than to see you step out of your comfort zone and tackle something new. You'll work with your peers on group projects – recent students have made an interactive cushion, explored Kinect hacking, created apps and designed an interactive breakfast table that showed the news.

Never mind thinking outside the box – you'll be inventing 1,001 new things to do with it.

Course highlights

- All our staff are active in research, industry or both and are passionate about new technology and new ways to use it. Particular areas of expertise include music and sound technology, social media, interactive and haptic technology, visual and digital imagery and gaming.
- Our tutors, who come from both the School of Media and Performing Arts and the School of Science and Technology, include haptic technology specialist Dr Rui Loureiro, who has pioneered work in robot-aided stroke rehabilitation; Debbie Jedwab, a former set designer for the BBC; composer and sound artist Nye Parry, who has worked with the British Museum and the Science Museum; and multimedia artist Nic Sandiland, whose work has been shown worldwide.
- You'll also benefit from the cutting-edge facilities and equipment in our £80 million Art, Design and Media building, the equal of which is rarely seen in other UK universities. They include fully-equipped TV, radio and sound studios, workshops for digital image processing and a comprehensive digital publishing suite.
- You'll learn computer programming as part of the course, and will have access to cutting edge haptic technology and a graphics and games programming laboratory. The university is home to the Human Interactive Systems Laboratory, a centre of research into haptic technology, and the Lansdown Centre for Electronic Arts.
- As well as attending masterclasses and guest lectures by industry professionals, students often work on real industry briefs – they've recently worked with Sony and designer and engineer Moritz Waldemeyer. We've developed the course in consultation with advisors from the creative industries to ensure it's relevant and current.

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Scientific analysis is a key tool in the interpretation of archaeological artefact and assemblages. Read more
Scientific analysis is a key tool in the interpretation of archaeological artefact and assemblages. This MSc offers detailed training in the use of scientific techniques for the analysis of archaeological and heritage materials, and a solid background in the archaeology and anthropology of technology allowing students to design and implement archaeologically meaningful scientific projects.

Degree information

This degree aims to bridge the gap between archaeology and science by integrating both a detailed training in the use of scientific techniques for the analysis of inorganic archaeological materials and a solid background in the anthropology of technology. By the end of the degree, students should have a good understanding of the foundations of the most established analytical techniques, practical experience in their application and data processing, as well as the ability to design research projects that employ instrumental analyses to address archaeological questions.

Students undertake modules to the value of 180 credits.

The programme consists of one core module (15 credits), four optional modules (75 credits) and a research dissertation (90 credits).

Core modules
-Laboratory and instrumental skills in archaeological science

Optional modules - you are then able to choose further optional modules to the value of 75 credits. At least 15 credits must be made up from the following:
-Technology within Society
-Archaeological Data Science

At least 30 credits must be made up from the following list below:
-Technology within Society
-Archaeological Data Science
-Archaeological Ceramic Analysis
-Archaeological Glass and Glazes
-Archaeometallurgy 1: Mining and Extractive Metallurgy
-Archaeometallurgy 2: Metallic Artefacts
-Geoarchaeology: Methods and Concepts
-Interpreting Pottery
-Working with Artefacts and Assemblages

In order to allow for a flexible curriculum, students are allowed to select up to 30 credits from any of the postgraduate courses offered at the UCL Institute of Archaeology under other Master's degrees.

Dissertation/report
All students undertake an independent research project which culminates in a dissertation of 15,000 words.

Teaching and learning
The programme is delivered through a combination of lectures, seminars, practical demonstrations and laboratory work. A popular aspect of this programme is its extensive use of analytical facilities. Assessment is through essays, practicals, projects, laboratory reports and oral presentations depending on the options chosen, and the dissertation.

Careers

Given our strong emphasis on research training, many of our MSc graduates take up further research positions after their degree, and over half of our MSc students progress to PhD research. Their projects are generally concerned with the technology and/or provenance of ceramics, metals or glass in different regions and periods, but most of them involve scientific approaches in combination with traditional fieldwork and/or experimental archaeology.

Some of our graduates are now teaching archaeometry or ancient technologies at different universities in the UK and abroad. Others work as conservation scientists in museums and heritage institutions, or as finds specialists, researchers and consultants employed by archaeological field units or academic research projects.

Employability
Due largely to an unparalleled breadth of academic expertise and laboratory facilities, our graduates develop an unusual combination of research and transferable skills, including critical abilities, team working, multimedia communication, numerical thinking and the use of advanced analytical instruments. On completion of the degree, graduates should be as comfortable in a laboratory as in a museum and or an archaeological site. They become acquainted with research design and implementation, ethical issues and comparative approaches to world archaeology through direct exposure to an enormous variety of projects. The range of options available allows students to tailor their pathways towards different career prospects in archaeology and beyond.

Why study this degree at UCL?

The UCL Institute of Archaeology is the largest and most diverse department of archaeology in the UK. Its specialist staff, outstanding library and fine teaching and reference collections provide a stimulating environment for postgraduate study.

The excellent in-house laboratory facilities will provide direct experience of a wide range of techniques, including electron microscopy and microphone analysis, fixed and portable X-ray fluorescence, X-ray diffraction, infra-red spectroscopy, petrography and metallography under the supervision of some of the world's leading specialists.

The institute houses fine teaching and reference collections that are extensively used by MSc students including ceramics, metals, stone artefacts and geological materials from around the world. In addition, the institute has a wide network of connections to museums and ongoing projects offering research opportunities for MSc students.

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Our Technology in the Marine Environment MRes provides research training, supervision and collaboration to international standards in the topics covered by the marine technology research groups. Read more
Our Technology in the Marine Environment MRes provides research training, supervision and collaboration to international standards in the topics covered by the marine technology research groups.

The MRes breaks down into approximately 40% taught modules and 60% research in collaboration with an industrial partner.

Your research project will normally be in one of the areas addressed by the marine technology research groups:
-Marine Hydrodynamics and Structures
-Marine Design, Production and Operations
-Sustainable Maritime Engineering
-New Energy Infrastructure

Depending on your previous academic training and the requirements of the project, you may receive formal instruction through taught modules in important areas.

The substantial marine technology research community, including 50 research students, 140 MSc students, six-10 post-doctoral students, six technicians and 16 full-time academic staff, provides you with opportunities to progress your career, whether in industry or academia.

Our annual Postgraduate Research Conference provides you with an opportunity to share research experience and practise vital presentation skills.

We hold joint meetings of the Royal Institution of Naval Architects (RINA) and the Institute of Marine Engineering, Science and Technology (IMarEST). You are invited to join these meetings as they offer vital insight into the workings of professional bodies.

Our research students have been very successful at finding employment across a wide range of sectors. Professional institutes hold Newcastle research degrees in high regard when assessing work applications.

Accreditation

Our course is accredited by the Royal Institution of Naval Architects (RINA) and the Institute of Marine Engineering, Science and Technology (IMarEST) on behalf of the Engineering Council. This means that you are automatically recognised as satisfying the educational requirements leading to Chartered Engineer (CEng) status.

The Royal Institution of Naval Architects is an internationally renowned professional institution whose members are involved at all levels in the design, construction, maintenance and operation of marine vessels and structures. Members of RINA are widely represented in industry, universities and colleges, and maritime organisations in over 90 countries.

IMarEST is the first Institute to bring together marine engineers, scientists and technologists into one international multi-disciplinary professional body.

Our accreditations give you an additional benchmark of quality to your degree, making you more attractive to graduate employers. It can also open the door to higher-level jobs, most of which require Chartered Engineer status.

Placements

Leading industrial organisations in the Marine and Renewables sector sponsor many research projects. Other projects involve collaboration between Newcastle and other institutions.

Recent partnerships and collaborations include International Paint, Lloyds Register and BAE Systems.

Facilities

You have access to a wealth of excellent facilities within the School of Marine Science and Technology, including extensive laboratories such as the:
-Hydrodynamics laboratory
-Emerson Cavitation Tunnel
-Princess Royal, a versatile twin-hulled locally designed and built vessel supported by a dedicated shore station at Blyth Harbour

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Taught jointly by UCL’s Space & Climate Physics and UCL’s Electronic & Electrical Engineering Departments by expert researchers and engineers in the field… Read more
Taught jointly by UCL’s Space & Climate Physics and UCL’s Electronic & Electrical Engineering Departments by expert researchers and engineers in the field, this MSc programme aims to provide a broad understanding of the basic principles of space technology and satellite communications together with specialised training in research methods and transferable skills, directly applicable to a career in the public and private space sectors.

Degree information

The Space Technology pathway is focussed on the application of space technology in industrial settings, and therefore has as its main objective to provide a sound knowledge of the underlying principles which form a thorough basis for careers in space technology, satellite communications and related fields. Students develop a thorough understanding of the fundamentals of:
-Spacecraft, satellite communications, the space environment, space operations and space project management.
-The electromagnetics of optical and microwave transmission, and of communication systems modelling.
-A range of subjects relating to spacecraft technology and satellite communications.

Students undertake modules to the value of 180 credits.

The programme consists of three core modules (45 credits), four optional modules (60 credits), a Group Project (15 credits) and an Individual research Project (60 credits).

Core modules
-Space Science, Environment and Satellite Missions
-Space Systems Engineering
-Communications Systems Modelling Type
-Group Project

Optional modules - at least one module from the following:
-Spacecraft Design – Electronic Sub-systems
-Mechanical Design of Spacecraft
-Antennas and Propagation
-Radar Systems
-Space-based Communication Systems

At least one module from:
-Space Instrumentation and Applications
-Space Plasma and Magnetospheric Physics
-Principles and Practice of Remote Sensing
-Global Monitoring and Security
-Space Data Systems and Processing

Dissertation/report
All MSc students undertake an Individual research Project, which normally involves attachment to a research group, and culminates in a report of 10,000–12,000 words.

Teaching and learning
The programme is delivered through a combination of lectures, coursework problem tasks, team-based coursework exercises, presentations and tutorials. Student performance is assessed through unseen written examinations, coursework, and the individual and group projects.

Careers

The programme aims to prepare students for careers in space research or the space industry, or further research degrees.

First destinations of recent graduates include:
-ONERA: Research Engineer
-Hispassat: Telecommunications Engineer
-Detica: Engineer
-Equinox Consulting: Financial Consultant
-Murex: Financial Consultant
-Risk Management Solutions: Risk Analyst
-Defence Science and Technology Laboratory: Analyst
-School of Electronics & Computer Science IT-Innovation: Research Engineer
-EADS Astrium Ltd: Engineer
-Thales Space: Engineer

Why study this degree at UCL?

UCL Space & Climate Physics, located at the Mullard Space Science Laboratory, is a world-leading research organisation and is the largest university space science group in the UK.

It offers a unique environment at the forefront of space science research, where scientists and research students work alongside top engineers building and testing instruments for space as well as studying the data from these and other spaceborne and ground-based instruments.

The close contact that the laboratory enjoys with space agencies such as ESA and NASA and with industrial research teams encourages the development of transferable skills which enhance job prospects in industrial and research centres in the public and private space sectors.

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This programme provides professional training in polymer science and technology for graduates of science, engineering and technology subjects. Read more
This programme provides professional training in polymer science and technology for graduates of science, engineering and technology subjects.

Lectures are supplemented by an extensive variety of laboratory exercises, spanning chemical and physical characterisation, and compounding and processing technology experiments on pilot-scale laboratory equipment.

Core study areas include polymer science, polymer process engineering, plastics and composites applications, polymer properties, polymer characterisation, polymerisation and polymer blends, plastics processing technology and a project.

Optional study areas include plastics processing technology, rubber compounding and processing, adhesive bonding, and sustainable use of materials.

See the website http://www.lboro.ac.uk/study/postgraduate/programmes/departments/materials/polymer-science-tech/

Programme modules

Full-time Modules:
Core Modules
- Polymer Science (SL)
- Polymer Process Engineering (SL)
- Plastics and Composites Applications (SL)
- Polymer Properties (SL)
- Polymer Characterisation (OW)
- Polymerisation and Polymer Blends (SL)
- MSc Project

Optional Modules
- Biomaterials (SL)
- Rubber Compounding and Processing (OW)
- Adhesive Bonding (OW)

Part-time Modules:
Core Modules
- Polymer Science (DL)
- Plastics and Composites Applications (DL)
- Polymer Properties (DL)
- Polymer Characterisation (OW)
- Polymerisation and Polymer Blends (DL)
- Plastics Processing Technology (OW)
- MSc Project

Optional Modules
- Rubber Compounding and Processing (OW or DL)
- Adhesive Bonding (OW)
- Sustainable use of Materials (OW or DL)

Alternative modules:*
- Design with Engineering Materials (DL)
- Polymer Process Engineering (SL)
- Materials Modelling (SL)

Key: SL = Semester-long, OW = One week, DL = Distance-learning

Alternative modules* are only available under certain circumstances by agreement with the Programme Director.

Selection

Interviews may be held on consideration of a prospective student’s application form. Overseas students are often accepted on their grades and strong recommendation from suitable referees.

Course structure, assessment and accreditation

The MSc comprises a combination of semester-long and one week modules for full-time students, whilst part-time students study a mix of one week and distance-learning modules.

MSc students undertake a major project many of which are sponsored by our industrial partners. Part-time student projects are often specified in conjunction with their sponsoring company and undertaken at their place of work.

All modules are 15 credits. The MSc project is 60 credits.

MSc: 180 credits – six core and two optional modules, plus the MSc project.
PG Diploma: 120 credits – six core and two optional modules.
PG Certificate: 60 credits – four core modules.

- Assessment
Modules are assessed by a combination of written examination, set coursework exercises and laboratory reports. The project is assessed by a dissertation, literature review and oral presentation.

- Accreditation
Both MSc programmes are accredited by the Institute of Materials, Minerals and Mining (IOM3), allowing progression towards professional chartered status (CEng) after a period of relevant graduate-level employment.

Careers and further study

Typical careers span many industrial sectors, including plastics, rubber, chemical and additives industries and packaging.
Possible roles include technical and project management, R&D, technical support to manufacturing as well as sales and marketing. Many of our best masters students who are interested in research stay with us to study for a PhD.

Bursaries and scholarships

Bursaries are available for both UK / EU and international students, and scholarships are available for good overseas applicants.

Why Choose Materials at Loughborough?

The Department has contributed to the advancement and application of knowledge for well over 40 years. With 21 academics and a large support team, we have about 85 full and part-time MSc students, 70 PhD students and 20 research associates.

Our philosophy is based on the engineering application and use of materials which, when processed, are altered in structure and properties.
Our approach includes materials selection and design considerations as well as business and environmental implications.

- Facilities
We are also home to the Loughborough Materials Characterisation Centre – its state of-the-art equipment makes it one of the best suites of its kind in Europe used by academia and our industrial partners.
The Centre supports our research and teaching activities developing understanding of the interactions of structure and properties with processing and product performance.

- Research
Our research activity is organised into 4 main research groups; energy materials, advanced ceramics, surface engineering and advanced polymers. These cover a broad span of research areas working on today’s global challenges, including sustainability, nanomaterials, composites and processing. However, we adopt an interdisciplinary approach to our research and frequently interact with other departments and Research Schools.

- Career prospects
Over 90% of our graduates were in employment and / or further study six months after graduating. Our unrivalled links with industry are
hugely beneficial to our students. We also tailor our courses according to industrial feedback and needs, ensuring our graduates are well prepared

Find out how to apply here http://www.lboro.ac.uk/study/postgraduate/programmes/departments/materials/polymer-science-tech/

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Artists doing strange things with technology. This sums up our MADtech Programme. To imagine, interpret and change human interaction with a transforming world you will use and artistically explore different technologies. Read more
Artists doing strange things with technology. This sums up our MADtech Programme. To imagine, interpret and change human interaction with a transforming world you will use and artistically explore different technologies. You will do so with a tinker mentality: play and experimentation are important aspects in your development and will carry a special emphasis on the research you do. This mentality, combined with a critical reflective attitude and conceptual skills, will lead to unexpected perspectives, resulting in multimedia artistic work.

The Frank Mohr Institute at the Minerva Art Academy offers two international Masters of Arts:
-MA Painting
-MA MADtech (Media, Art, Design & Technology)*, each consisting of a two-year curriculum.


Past, present and future

At MA MADtech we are constantly searching for the dialogue between different viewpoints from the past, present and future: between art and science, laboratory and applied research, stable and unstable media, old and new technology, local and global forms of society. We do so collectively, sharing our views and ideas, working in groups and learning from each other. At the same time, you will follow your own path, improving your knowledge and skills, learning to reflect critically on your own position, role and work as well as on the world around you.

Hybrid practice

Participants of our programme come from different practices, media, art and design, and share a fascination for technology. The combination of these areas gives you the opportunity to develop your artistic vision, working in a hybrid practice as a critical and engaged artist. As your art engages with the world, you will grow as an individual as well as in your artistic profession, reinforcing the power of your imagination and exploring your own connection to a transforming, technologically charged society.

Art & Research

MADtech is all about combining art and technology, creating hybrid forms of art, using traditional as well as brand new, unexpected means, content and media. Experimentation, tinkering and playing are vital methods for developing your work, backed up by thorough reflection. Artistic technology research is therefore a major part of the master programme. You will take part in collaborative artistic research projects, exploring the possibilities and limitations of transdisciplinary and transmedial situations in contemporary culture. This will help you to understand the links between aesthetics, technology, materiality, thinking and politics.

Enriching your work and ideas

You enter this programme with your own research topic. You will develop and refine these ideas during your first year, enriching your ideas through the knowledge and skills that you will gain, the experiments that you will carry out and the collaboration that you'll encounter. The second year is almost entirely devoted to your graduation work and artistic research, leading to your master thesis. During your time with us you will be part of a community where education, research and the artistic practice meet and reinforce each other.

Hybrid Arts Lab

For most of your work, research and lectures you will go to our building on the Praediniussingel. There you will find our Hybrid Arts Lab, also called HAL 24/7.
It includes an artistic technology research lab, seminar, project, lecture and exhibition rooms, media and photography studios, common workplaces, common kitchen and individual studios. You also have access to your studio 24 hours a day, seven days a week. At HAL we provide plenty of facilities, which you can use, technologically and otherwise as well as sufficient technical support. If you require more complex, technological facilities, you are welcome to make use of the Hanze facilities at the Institute of Engineering in Assen.

Expert meetings, artist's talks and exhibitions

You can attend interesting expert meetings, artist's talks and exhibitions, for instance by lectors of the Centre of Applied Research and Innovation Art & Society. During the 'Energize Festival' an international workshop called 'Recycling Electronics' took place here. Another interesting example is the expert meeting concerning photography research in cross-disciplinary and cross-cultural artistic practices, which involved current students and alumni. Every year, the course Research & Development/New Media Art Practices organises different collaborative projects and workshops, for example, with CREW Immersive Media and Blast Theory.

Centre of Applied Research and Innovation Art & Society

The Art & Society research centre of the Hanze University of Applied Sciences Groningen covers the practice based research of Minerva Art Academy. The Art & Society research centre consists of three research groups: Lifelong Learning in Music, Image in Context and Popular Culture, and Sustainability & Innovation.

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This award is offered within the Postgraduate Scheme in Health Technology, which aims to provide professionals in Medical Imaging, Radiotherapy, Medical Laboratory Science, Health Technology, as well as others interested in health technology, with an opportunity to develop advanced levels of knowledge and skills. Read more

Programme Aims

This award is offered within the Postgraduate Scheme in Health Technology, which aims to provide professionals in Medical Imaging, Radiotherapy, Medical Laboratory Science, Health Technology, as well as others interested in health technology, with an opportunity to develop advanced levels of knowledge and skills.

The award in Medical Imaging and Radiation Science is specially designed for professionals in medical imaging and radiotherapy and has the following aims.

A. Advancement in Knowledge and Skill
‌•To provide professionals in Medical Imaging and Radiotherapy, as well as others interested in health technology, with the opportunity to develop advanced levels of knowledge and skills;
‌•To develop specialists in their respective professional disciplines and enhance their career paths;
‌•To broaden students' exposure to a wider field of health science and technology to enable them to cope with the ever-changing demands of work;
‌•To provide a laboratory environment for testing problems encountered at work;
‌•To equip students with an advanced knowledge base in a chosen area of specialisation in medical imaging or radiotherapy to enable them to meet the changing needs of their disciplines and contribute to the development of medical imaging or radiation oncology practice in Hong ‌Kong; and
‌•To develop critical and analytical abilities and skills in the areas of specialisation that are relevant to the professional discipline to improve professional competence.

B. Professional Development
‌•To develop students' ability in critical analysis and evaluation in their professional practices;
‌•To cultivate within healthcare professionals the qualities and attributes that are expected of them;
‌•To acquire a higher level of awareness and reflection within the profession and the healthcare industry to improve the quality of healthcare services; and
‌•To develop students' ability to assume a managerial level of practice.

C. Evidence-based Practice
‌•To equip students with the necessary skill in research to enable them to perform evidence-based practice in the delivery of healthcare service and industry.

D. Personal Development
‌•To provide channels through which practising professionals can continuously develop themselves while at work; and
‌•To allow graduates to develop themselves further after graduation.

Programme Characteristics

The Medical Imaging and Radiation Science award offers channels for specialization and the broadening of knowledge for professionals in medical imaging and radiotherapy. It will appeal to students who are eager to become specialists or managers in their areas of practice. Clinical experience and practice in medical imaging and radiotherapy are integrated into the curriculum to encourage more reflective observation and active experimentation.

Programme Structure

The Postgraduate Scheme in Health Technology consists of the following awards:
‌•MSc in Medical Imaging and Radiation Science
‌•MSc in Medical Laboratory Science

A range of subjects that are specific to Medical Imaging and Radiation Science, and a variety of subjects of common interest and value to all healthcare professionals, are offered. In general, each subject requires attendance on one evening per week over a 13-week semester.

Award Requirements

Students must complete 1 Compulsory Subject (Research Methods & Biostatistics), 4 Core Specialism Specific Subjects, 2 Elective subjects (from any subjects within the Scheme) and a research-based Dissertation or 3 other subjects from the Scheme. They are encouraged to select a dissertation topic that is relevant to their professional and personal interests. Students who have successfully completed 30 credits, but who have taken fewer than the required 4 Core Specialism Specific Subjects, will be awarded a generic MSc in Health Technology without a specialism award.

Students who have successfully completed 18 credits, but who decide not to continue with the course of MSc study, may request to be awarded a Postgraduate Diploma (PgD) as follows:
PgD in a specialism if 1 Compulsory Subject, 4 Core Subjects and 1 Elective Subject are successfully completed; or
PgD in Health Technology (Generic) if 1 Compulsory Subject and any other 4 subjects within the Scheme are successfully completed.

Core Areas of Study

The following is a list of Core Subjects. Some subjects are offered in alternate years.

‌•Multiplanar Anatomy
‌•Advanced Radiotherapy Planning & Dosimetry
‌•Advanced Technology & Clinical Application in Computed Tomography
‌•Advanced Technology & Clinical Application in Magnetic Resonance Imaging
‌•Advanced Topics in Health Technology
‌•Advanced Ultrasonography
‌•Computed Tomography (CT): Practicum
‌•Digital Imaging & PACS
‌•Imaging Pathology

Having selected the requisite number of subjects from the Core list, students can choose the remaining Core Subjects or other subjects available in this Scheme as Elective Subjects.

The two awards within the Scheme share a similar programme structure, and students can take subjects across disciplines. For subjects offered within the Scheme by the other discipline of study, please refer to the information on the MSc in Medical Laboratory Science.

English Language Requirements

If you are not a native speaker of English, and your Bachelor's degree or equivalent qualification is awarded by institutions where the medium of instruction is not English, you are expected to fulfil the University’s minimum English language requirement for admission purpose. Please refer to the "Admission Requirements" http://www51.polyu.edu.hk/eprospectus/tpg/admissions-requirements section for details.

‌•Additional Document Required
‌•Employer's Recommendation
‌•Personal Statement
‌•Transcript / Certificate

How to Apply

For latest admission, please visit [email protected] http://www51.polyu.edu.hk/eprospectus/tpg and eAdmission http://www.polyu.edu.hk/admission

Enquiries

For further information, please contact:
Telephone: (852) 3400 8653
Fax: (852) 2362 4365
E-mail:

For more details of the programme, please visit [email protected] website http://www51.polyu.edu.hk/eprospectus/tpg/2016/55005-rmf-rmp

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Financial Technology (FinTech) is concerned with the use of technology to make financial transactions more efficient. Graduates in this field will have a good understanding of finance, accounting, business information systems and analytic methods. Read more
Financial Technology (FinTech) is concerned with the use of technology to make financial transactions more efficient. Graduates in this field will have a good understanding of finance, accounting, business information systems and analytic methods.

Our MSc FinTech is jointly provided by the departments of Accounting & Finance and Management Science where relevant expertise resides across all core competencies both in teaching and research. This is a transitional masters degree and we accept students from a variety of background who want a career is this area.

You'll gain a comprehensive skill set using a blended learning approach that combines theory, intensive practice and industrial engagement.

What you’ll study

The course is 12 months full-time, with two semesters of classes followed by an MSc dissertation project during the summer.

The first semester is designed to give you the fundamental understanding of finance and analytical methods within the context of development in FinTech practice and application.

The second semester will extend your core skills, expanding your knowledge of analytics methods, deepening your understanding of information systems and enhancing your understanding of financial markets.

'Becoming an Effective Financial Technology Analyst is a class led by industrialists in partnership with academics concerned with FinTech problems. It lets you experience the practical reality of applying analytical methods in financial technology business. Working with industrialists on real issues presents a variety of challenges. For example, data may of poor quality, decision makers can be vague concerning their requirements or the analytical technique required may not be obvious as well as convincing industrialists of the merits of the methods would all be covered in this class. Your understanding will be reinforced by experience.

The final component of the MSc course will be a FinTech focused summer dissertation project. This can be completed either through a client-based project or a desk-based research project, depending on your interests. You'll submit your dissertation in September to complete your degree requirements.

Facilities

The course will involve big data analytics using the University’s servers. Some of the content will involve interaction with the Bloomberg Trading Simulation Laboratory in the Business School.

Course content

Compulsory classes
Semester 1
-Regulations & Technology
-Principles of Finance
-Quantitative Business Analysis
-Big Data Fundamentals

Semester 2
-Business Analytics
-Business Information Systems
-Security Analysis
-Risk Management for Banks

Semester 1 & 2
-Becoming an Effective Technology Analyst

Elective classes
Choose one Accounting & Finance class from:
-Portfolio Theory & Management
-Derivatives
-Financial Management for Banks

Choose one Management Science class from:
-Stochastic Modelling for Analytics
-Business Simulation Modelling
-Risk Analysis & Management

Choose one Computer Science class from:
-Big Data Tools & Techniques
-Fundamentals of Machine Learning for Data Analytics

Learning & teaching

The programme is mainly taught through a combination of lectures, tutorials and computer labs.

"Becoming an Effective Financial Technology Analyst" focuses on experiential learning. A series of semi- or unstructured business problems, typically introduced by an industrialist from the Financial Technology sector, acting as clients, outlining real problems on projects & cases that they have been involved in. Students are formed into small working groups and placed in the role of analysts/consultants with a brief of advising the client on how to tackle the problem.

Assessment

Assessment will vary across the classes but will include exams, written assignments as well as practical team and individual projects.

Careers

The course is tailored to make the graduates eminently employable in this exciting new field that cuts across traditional disciplinary boundaries.

Research indicates that students with programming, data analytics and finance skills get premium starting salaries compared to graduates from any one of these disciplines.

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This programme provides flexibility and a range of module choices to practitioners and relevant organisations in the telecom, consultancy and software/system engineering sectors, which enables them to tailor their training/education needs. Read more

About the course

This programme provides flexibility and a range of module choices to practitioners and relevant organisations in the telecom, consultancy and software/system engineering sectors, which enables them to tailor their training/education needs.

Cyber Technology MSc consists of four main themes; Cyber Security, Software Engineering, Digital Forensics, and Management. It can be studied by combining modules from all four themes allowing you to specialise in your chosen area of interest. You have the opportunity to choose mixed pathways, for example the choices of modules could lead to a degree in Cyber Security with Management.

Reasons to study:

• Develop skills required for a rapidly changing sector
gain the latest skills, techniques and knowledge required in one of the most exciting areas of computing

• Developed in conjunction with industry experts
modules are developed with Deloitte PLC, Airbus Group, BT and Rolls-Royce ensuring that you explore issues relevant to industry

• Dedicated Cyber Security Centre
access to our dedicated Computer Security and Forensics laboratories will give you the opportunity to work in industry standard facilities which will allow you to develop and enhance your skills in digital forensics

• Taught by expert academic staff
taught by expert staff within our Cyber Security Centre and Software Technology Research Laboratory who recognised leaders in the cyber security domain

• Specialise your learning to your area of interest
combine modules from across Cyber Security, Cyber Technology, Digital Forensics and Software Engineering, allowing you to tailor the course to your areas of interest

• Excellent career prospects
graduates are prepared for roles such as consultancy, software houses or project management within organisations that are cyber security specialists within law enforcement, government; in commercial IT departments and security consultancies

Teaching and Assessment

Each module is delivered over the duration of four full days. It targets both concepts and practical skills that are relevant to industry. A multiple choice (MC) test at the end of the course provides attendees feedback on their achievements and must be passed before continuation of the academic assessment through coursework.

Teaching methods include lectures, tutorials and laboratory work. A strong emphasis is given to real world problems. Assessment is by a combination of coursework, projects, multiple choice and laboratory-based assessments.

Contact and learning hours

You will normally attend 3 hours of timetabled taught sessions each week for each module undertaken during term time, for full time study this would be 12 hours per week during term time. You are expected to undertake around 24 further hours of independent study and assignments as required per week. Alternate study modes and entry points may change the timetabled session available, please contact us for details.

Academic Expertise

The programme is managed and delivered through our renowned Cyber Security Centre and Software Technology Research Laboratory.

The course teams within the Cyber Security Centre have unrivalled expertise in cyber security. The team includes former Chief Information Security Officers (CISOs) of large telecommunications companies, internet banks and cloud service providers, an ex-vice president of one of the largest cyber security companies in the world, information assurance specialists with extensive experience working in various UK defence organisations, leading digital forensics experts and respected government advisors.

Several of the team are regular media commentators on forensics and security. Professional input throughout the course will come from Deloitte and their cyber security professionals.

Facilities

The Cyber Security Laboratories are among the best equipped facilities of this type in the UK. Developed in consultation with leaders in the industry, they are designed to meet the highest forensics and security standards.
The laboratories contain 65 high-spec, specially customised PCs configured with multiple operating systems, virtualisation and removable hard drives, as well as specialised servers, wired and wireless networking equipment and a wide variety of other hardware and software components.

Cyber Security Centre

The laboratories are also the base for our Cyber Security Centre (CSC), a multidisciplinary group of academics and industry experts who focus on a wide variety of cyber security and digital forensics issues. Their mission is to provide the full benefits to all of a safe, secure and resilient cyberspace.

The laboratories play a vital role in the group's research and development work. Whether you are a first year undergraduate or a PhD student, within the laboratories you will be working with the latest tools and techniques at the forefront of computer forensics and security research.

To find out more

To learn more about this course and DMU, visit our website:
Postgraduate open days: http://www.dmu.ac.uk/study/postgraduate-study/open-evenings/postgraduate-open-days.aspx

Applying for a postgraduate course:
http://www.dmu.ac.uk/study/postgraduate-study/entry-criteria-and-how-to-apply/entry-criteria-and-how-to-apply.aspx

Funding for postgraduate students:
http://www.dmu.ac.uk/study/postgraduate-study/postgraduate-funding-2017-18/postgraduate-funding-2017-18.aspx

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With City’s MSc in Information systems and technology you will develop the skills to manage an organisation's IT infrastructure. This postgraduate Information Systems and Technology course is for students who have a keen interest in both information system development and information management. Read more
With City’s MSc in Information systems and technology you will develop the skills to manage an organisation's IT infrastructure.

Who is it for?

This postgraduate Information Systems and Technology course is for students who have a keen interest in both information system development and information management. Students are either in the early stages of their career or have significant work experience in the area and wish to formalise their knowledge.

Students will have curiosity about information and knowledge and will want to learn about managing them in organisations, together with the requisite design and technical skills to meet business requirements.

Objectives

Information systems are a key part of an organisation's IT infrastructure. IT professionals who can manage a business's information resources, and understand the technologies and systems that enable this are key to a modern enterprise's success.

Our postgraduate Information Systems and Technology degree will equip you with the skills to develop and maintain information systems that align with the strategic needs of any organisation.

Rather than focusing on technical issues only, the course combines technological fundamentals with a systematic understanding of IT's broader business contexts, including human and organisational factors. The course exploits City's research expertise in both computing and information management to produce effective professionals with a broad understanding of IT underpinned by a firm grasp of key technical concerns.

Placements

The School of Mathematics, Computer Science& Engineering has been delivering placements in the IT industry for over 20 years.

Academic facilities

The School's computer science laboratories are equipped with the latest up-to-date hardware and software. From Oracle’s leading commercial object-relational database server to PCs with state-of-the-art NVidia GPUs for computer graphics, Microsoft Dynamics, SAP etc you will have access to an array of tools to support your learning.

Teaching and learning

The teaching and learning methods we use mean that your specialist knowledge and autonomy increase as you progress through each module. Active researchers and professionals guide your progress in the areas of information systems and management, project management and business processes.

Taught modules are delivered through a series of lectures together with either tutorials or laboratory sessions. Tutorials help you develop the skills to apply the concepts we have covered in the lectures. We normally achieve this through practical problem solving contexts or case studies. Laboratory sessions give you the opportunity to apply concepts and techniques using state-of-the-art software, environments and development tools.

City’s online learning environment Moodle contains resources for each of the modules from lecture notes and lab materials, to coursework feedback, model answers, and an interactive discussion forum.

Assessment

We expect you to study independently and complete coursework for each module. Modules are assessed through a combination of written examinations, coursework, group work and presentations.

The individual project is a substantial task. It is your opportunity to develop an autonomous research-related topic under the supervision of an academic member of staff. This is the moment when you can apply your learning to solve a real-world information system or information management problem. At the end of the project you submit a substantial MSc project report, which becomes the mode of assessment for this part of the programme.

Students successfully completing eight modules and the dissertation will be awarded 180 credits and a masters level qualification. Alternatively, students who do not complete the dissertation but have successfully completed eight modules will be awarded 120 credits and a postgraduate diploma. Successful completion of four modules (60 credits) will lead to the award of a postgraduate certificate.

Modules

The postgraduate Information Systems and Technology programme is made up of five core modules, three elective modules and a final project. All the electives are studied in the second term. You will take core and elective modules in three main streams: information, systems and technology. The third term is reserved for the project.

Modules include hands-on lab-based tutorials, group work seminars and presentations. We teach technical skills in SQL, JavaScript and PhP, as well as design skills using UML. You can pursue a practical MSc project in an application area of your choice.

With respect to hours please consult the SMCSE programmes office.

Core Modules
-Systems Specification INM312 (15 credits)
-Databases INM343 (15 credits)
-Information and Knowledge Management INM351 (15 credits)
-Research Methods and Professional Issues INM373 (15 credits)
-Information Architecture INM401 (15 credits)

Elective Modules - you may choose three elective modules from the following:
-Information Retrieval INM305 (15 credits)
-Web Applications Development INM316 (15 credits)
-Business Engineering with ERP Solutions INM342 (15 credits)
-Information Law and Policy INM361 (15 credits)
-Project Management INM372 (15 credits)
-Data Visualization INM402 (15 credits) *
-Libraries and publishing in the information society INM380 (15 credits)
-Information Organisation INM303 (15 credits) +
-Business Intelligence and Analytics INM451 (15 credits)

+ Students who take INM303 must also take INM305 as an option.
* Students may only take one of INM402 or INM451 as an option.

Career prospects

City’s Information Systems and Technology MSc graduates are prepared for employment in information systems management roles within large and small organisations including banks, consultancies, the pharmaceutical and IT industries, central and local government and the education and health sectors.

Previous graduates have secured employment in some of the most prestigious companies in the world including Merrill Lynch, Deutsche Bank, Virgin Atlantic, Barclays Capital and the Royal Bank of Scotland.

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