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Masters Degrees (Fusion Engineering)

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The aim of the MSc programme in Nuclear Engineering is to prepare engineers with the skills necessary to design, build and operate power generation plants, radioactive waste treatment plants, systems using radiation for industrial and medical applications, etc. Read more

Mission and goals

The aim of the MSc programme in Nuclear Engineering is to prepare engineers with the skills necessary to design, build and operate power generation plants, radioactive waste treatment plants, systems using radiation for industrial and medical applications, etc. The educational programme, therefore, gives emphasis to topics referring to energy applications, i.e. fission and fusion plants, nuclear fuel, materials and safety. Topics applied also in non-energy applications are accounted for, as in medical and industrial applications of radiation, material physics, plasma physics and nanotechnologies with a strong link to the nuclear field.

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

Career opportunities

The graduates in Nuclear Engineering, thanks to the MSc multidisciplinary training, can easily be employed in the nuclear sector (e.g. industries operating in nuclear power plants design, construction and operation, in nuclear decommissioning and nuclear waste processing and disposal, in design and construction of radiation sources, in centers for nuclear fusion and high-energy physics), as well as in other areas such as the energy industry, the medical sector, the health, safety and environment sector (e.g. engineering companies, hospitals, consultancy and risk analysis firms) and also research centers and universities.

Presentation

See http://www.polinternational.polimi.it/uploads/media/Nuclear_Engineering.pdf
In this Course emphasis is given to energetic applications, e.g. those referring to fission and fusion plants, the nuclear fuel, materials and safety. Also nonenergetic applications are accounted for, i.e. medical and industrial applications of radiation; radiation detection and measurements; nuclear electronics for radiation detection; radiochemistry; radiation protection and material physics, plasma physics and nanotechnologies with a strong link to their impact in the nuclear field. Graduates in Nuclear Engineering can find employment not only in the nuclear sector (industries operating in electro-nuclear power generation, nuclear plant dismantling, nuclear waste processing and disposal, design and construction of radiation sources, institutes and centers for nuclear fusion and high-energy physics), but also in other areas operating in the field of hightechnology, engineering companies, companies for industrial, medical and engineering advice, hospitals, companies for risk analysis, etc.

Subjects

1st year subjects
Fission reactor physics, nuclear measurements and instrumentation, nuclear plants, nuclear and industrial electronics, reliability safety and risk analysis, solid state physics.

2nd year subjects (subjects differentiated by three specializations)
- Nuclear plants
Nuclear technology and design, Applied Radiation Chemistry, Reliability, Safety and Risk Analysis A+B, Nuclear Material Physics. Fission Reactor Physics II + Radioactive Contaminants Transport, Statistical Physics.

- Nuclear Technology
Medical applications of radiation, Applied Radiation Chemistry, Nuclear technology and design, Reliability, Safety and Risk Analysis A+B, Nuclear material physics, Fission Reactor Physics II + Radioactive Contaminants Transport.

- Physics for Nuclear Systems
Subjects: Nuclear technology and design, Nuclear Material Physics, Medical applications of radiation, Applied Radiation Chemistry, Nuclear material physics, Fission Reactor Physics II + Radioactive Contaminants Transport.

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

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

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

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Our 12-month (full time) Master's course provides a firm foundation in fusion physics. It is an ideal course to prepare students for a PhD in fusion energy or for employment in fusion laboratories. Read more
Our 12-month (full time) Master's course provides a firm foundation in fusion physics. It is an ideal course to prepare students for a PhD in fusion energy or for employment in fusion laboratories. In addition to the lecture courses, you will be introduced to the skills in computational and experimental plasma physics essential to Fusion research (and highly valued in today’s knowledge-based economy). The MSc culminates in a major research project where, under the supervision of world leading physicists at the York Plasma Institute, you will conduct cutting edge research in fusion. During your study you will also have the chance to explore the many exciting areas of modern plasma research, for example: cutting-edge medical therapies utilising plasma jets and beams of laser-generated ions; plasmas as compact particle accelerators and next generation plasma space propulsion systems. The Fusion Frontiers and Interfaces workshop, part of the MSc course, provides students an unrivalled opportunity to interact with world-class international fusion scientists, ensuring that the MSc in Fusion Energy is an excellent way to explore your interest in fusion and prepare for a career in this field.

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Application period/deadline. November 1, 2017 - January 24, 2018. Research-oriented degree provides an exciting opportunity to study in a leading-edge research environment. Read more

Application period/deadline: November 1, 2017 - January 24, 2018

• Research-oriented degree provides an exciting opportunity to study in a leading-edge research environment

• The studies combine both theoretical and practical approach

• Specializations in Applied Computing, Artificial Intelligence, and Computer Egineering

The International Master’s Degree Programme in Computer Science and Engineering (CSE) is a two-year research-oriented programme concentrating on intelligent digital solutions to real world problems. During the past decades, Computer Science and Engineering has had a significant impact into our daily lives. The development continues and soon computers will not be used as separate devices anymore. Instead they will blend into our living environments and offer us rich sets of services through natural and intuitive user interfaces. The graduates from Computer Science and Engineering will play a key role in this development.

The two-year programme has three specialisation options:

• Applied Computing

• Artificial Intelligence

• Computer Engineering

Applied Computing focuses on the next generation of interactive systems that place humans at the focus of the technological development. Adopting a multidisciplinary real-world approach, students have to spend a substantial amount of time working in group projects to develop a variety of systems ranging from interactive online services to games and mobile applications, with a strong focus on innovation and design.

Artificial Intelligence focuses in various fields of AI, such as machine learning, machine vision, and data mining. This specialisation provides students with a solid theoretical understanding and practical skills on processing and analyzing digital data and the ability to create intelligent solutions to real world problems with modern AI techniques.

Computer Engineering focuses on both hardware and software aspects of computing with emphasis on embedded system development. In this specialisation, students also study signal processing and its applications, and work with projects on modern signal processors and embedded computers. The specialisation gives the students a good basis to work with Internet of Things (IoT) applications.

In addition to the core specialization options, students can take optional courses to widen their specialization expertise into:

• Biomedical signal analysis

• Machine learning

• Machine vision

• Signal processing

• Embedded systems

• Ubiquitous computing

This Master’s programme is provided by the Faculty of Information Technology and Electrical Engineering, and students are strongly encouraged to work closely with research groups in the faculty that are international leaders in their fields. The Center for Machine Vision and Signal Analysis (CMVS) is renowned world-wide for its 35 years of expertise in computer vision research. The Center for Ubiquitous Computing (UBICOMP) has created a unique research environment for Ubiquitous Computing including multitouch wall-sized displays, smartphone sensing middleware and sensor networks. Biomimetics and Intelligent Systems Group (BISG) is a fusion of expertise from the fields of computer science and biology. During the studies the research groups provide students trainee and master’s thesis positions, with the possibility to continue as a doctoral student, and even as a post-doctoral researcher.

The programme will provide the graduates with sufficient skills to work in a wide variety of positions offered by research institutes and companies mainly operating in the field of information and communications technology (ICT). The graduates are most likely to be employed in research and development related positions, but also management positions and entrepreneurship fit into the profile.

Possible titles include:

• Research Scientist

• Software Engineer

• System Designer

• Project Manager

• Specialist

Students applying for the programme must possess an applicable B.Sc. degree in computer science, electrical engineering or relevant fields such as physics or applied mathematics.

For all enquiries, please refer to our enquiry form: http://www.oulu.fi/university/admissions-contact



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This MSc delivers a solid grounding in the science and engineering principles that underpin the global nuclear industry. Throughout the programme you will benefit from a connection, via the South West Nuclear Hub, to the University of Bristol’s UK-leading industrial research. Read more
This MSc delivers a solid grounding in the science and engineering principles that underpin the global nuclear industry. Throughout the programme you will benefit from a connection, via the South West Nuclear Hub, to the University of Bristol’s UK-leading industrial research. This environment of collaboration with key industrial partners enriches your learning experience and exposes you to the scientific and engineering challenges facing nuclear energy today.

The programme offers you the opportunity to gain skills and experience highly sought after by the nuclear industry. As you learn about five key themes of nuclear science and engineering from experts in the field you will develop skills in problem-solving, team-building, communication and scientific writing.

During the challenge project element of the programme you will join a multi-disciplinary team in approaching a genuine industry problem. The challenge is set by industry partners, who will act as your industrial supervisors, provide guidance on your work and attend your final presentation. Previous industry partners include Sellafield, EDF Energy and the Culham Centre for Fusion Energy.

This area of scientific study demands state-of-the-art facilities, and the programme gives you access to a suite of multi-million pound, cutting-edge analytical equipment, supported by dedicated technicians. Facilities include profiling systems, x-ray microscopes, a 200-acre site focused on robotics and device sensor development, and the largest earthquake simulator in the UK.

Programme structure

The five key themes that run through the programme are: the nuclear cycle; nuclear reactor materials and design; nuclear structural integrity; nuclear professionalism and nuclear systems; infrastructure, hazards and risk.

Teaching consists of core lecture-based units in science and engineering:
-Fundamentals of Nuclear Science
-Nuclear Reactor Engineering
-Nuclear Material Behaviour
-Nuclear Reactor Physics
-Nuclear Fuel Cycle

The Research Skills and Group Project units help develop the skills needed to work in this area, including industry-focused workshops, an industry-set challenge and a major individual research project, for which the practical work takes place over the summer.

Careers

Graduates will leave equipped with a familiarity with the nuclear industry and its unique safety culture, and they will be prepared to enter the industry or continue towards further research in academia.

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The Masters in Mechatronics is a fusion of mechanical, electrical, electronic and control engineering. Modern industry depends for its success in global markets on its ability to integrate these subjects into both the manufacturing process and innovative products and systems. Read more
The Masters in Mechatronics is a fusion of mechanical, electrical, electronic and control engineering. Modern industry depends for its success in global markets on its ability to integrate these subjects into both the manufacturing process and innovative products and systems.

Why this programme

◾Electronic and Electrical Engineering at the University of Glasgow is consistently highly ranked recently achieving 1st in Scotland and 4th in the UK (Complete University Guide 2017).
◾You will learn how to apply design synthesis and analysis techniques within a coherent range of subjects in mechatronic engineering.
◾You will learn how to utilise specific software tools to support mechatronic system synthesis and analysis activity, and professionally plan, report and present the results of multidisciplinary project activity.
◾The University of Glasgow’s School of Engineering has been delivering engineering education and research for more than 150 years and is the oldest School of Engineering in the UK.
◾Mechanical Engineering is a core engineering discipline that has a long history in the University of Glasgow, dating back to the 1760’s and includes famous people such as James Watt.
◾This programme has a September and January intake*.

*For suitably qualified candidates.

Programme structure

Modes of delivery of the MSc in Mechatronics include lectures, seminars and tutorials and allow students the opportunity to take part in lab, project and team work.

You will undertake a project where you will apply your newly learned skills and show to future employers that you have been working on cutting-edge projects relevant to the industry.

Core courses normally offered include

◾Data signal processing
◾Integrated system design project.

Optional courses

◾Advanced manufacture
◾Auto vehicle guidance systems
◾Computer communications
◾Control
◾Fault detection, isolation and reconfiguration
◾Lasers
◾Power electronics and drives
◾Real-time embedded programming
◾Robotics 4.

Projects

◾To complete the MSc degree you must undertake a project worth 60 credits, many of which are conducted with industry.
◾The project will integrate subject knowledge and skills that you acquire during the MSc programme.
◾The project is an important part of your MSc where you can apply your newly learned skills and show to future employers that you have been working on cutting edge projects relevant to the industry.
◾You can choose a topic from a list of MSc projects in Mechatronics. Alternatively, should you have your own idea for a project, department members are always open to discussion of topics.

Example projects

Examples of projects can be found online

*Posters shown are for illustrative purposes

Industry links and employability

◾The MSc in Mechatronics has developed in consultation with industry – it will provide you with the interdisciplinary approach necessary to achieve the coherent integration of these traditionally divided disciplines.
◾The School of Engineering has extensive contacts with industrial partners who contribute to several of their taught courses, through active teaching, curriculum development, and panel discussion. Recent contributors, in the area of Mechanical Engineering include: Babcocks, Howdens, Doosan and Terex.
◾During the programme students have an opportunity to develop and practice relevant professional and transferrable skills, and to meet and learn from employers about working in a wide range of industries.

Career prospects

Career opportunities include manufacturing production systems; system design and manufacture; product engineering and manufacture.

Graduates of this programme have gone on to positions such as:
Senior Software Engineer at Wipro Technologies.

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Rapid growth in the global medical devices industry demands an innovative fusion of biomedical, materials sciences, manufacturing, and engineering knowledge - and the University of Auckland is responding to the challenge. Read more

Invest in your future

Rapid growth in the global medical devices industry demands an innovative fusion of biomedical, materials sciences, manufacturing, and engineering knowledge - and the University of Auckland is responding to the challenge.

This programme is aimed primarily at engineers and health professionals to provide them with the necessary broad range of knowledge in the various technologies underpinning medical devices.

Programme Structure

Taught or Research (120 points)
The programme is normally two semesters and will accommodate part-time enrolments. To best meet the needs of participants with different backgrounds, including those coming from industry, the programme is provided as both a research masters and a taught masters.

All students complete two core courses that give an overview of technology and practices related to medical devices.

Students have a choice of completing a 90-point research portfolio or a smaller 60-point research project. In both cases the research is a significant component of the study programme and will involve working with a research group or being seconded to industry for a supervised research project that provides specialisation in a particular aspect of medical device technology. For participants without a medical background, a clinical secondment will be used to strengthen the experiential component of their learning.

Participants enrolled in the 90-point research portfolio will prepare a written thesis, while participants enrolled in the 60-point project will prepare a written project report. Both are examined following the standard the University of Auckland processes.

The taught masters option provides a wide variety of courses that participants can draw upon to best address their own areas of interest. Courses are lecture-based and delivered as modules, each taught by the University’s research specialists ensuring participants meet the multidisciplinary requirements of medical devices technology.

Electives

Elective enrolments may depend on your prior study and professional experience, but ultimately, choosing the appropriate courses and topics can allow you to concentrate on and develop strengths in your energy field of choice.

Our broad list of electives include courses in:
• Marketing for Scientific and Technical Personnel
• Frontiers in Biotechnology
• Law and Intellectual Property
• Research Commercialisation
• Commercialisation Project
• Science Enterprise Research Methods
• Product Development and Regulatory Environments
• Advanced Biomedical Imaging
• Advanced Imaging Technologies
• Microelectromechanical Systems
• Biomechatronic Systems

Next generation research at the Faculty of Engineering

The Faculty of Engineering is dedicated to providing you with all the facilities, flexibility and support needed for you to develop the skills needed for the workforce. We boast research themes and programmes that provoke interdisciplinary projects, bringing together expertise from our five departments, other faculties, and industry partners and research organisations. Collaborative study is strongly encouraged – postgraduates in particular have the benefit of experiencing cohorts with diverse academic and industry backgrounds.

You will gain access to world-renowned experts who actively demonstrate the positive impacts research have on society. High-performance equipment and labs beyond industry standards are at your fingertips. Our facilities extend beyond study hours – we take pride in our involvement in student events and associations across the University, and are dedicated to providing you with academic, personal and career advice. We encourage you to take advantage of our resources, and use them to expand the possibilities of your research and career path.

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The course will offer an opportunity for students to study modern ground, mobile and airborne engineering surveying techniques. Satellite positioning technology and the sciences and technologies of remote measurement including photogrammetry, total stations and laser scanning, are still developing rapidly. Read more
The course will offer an opportunity for students to study modern ground, mobile and airborne engineering surveying techniques. Satellite positioning technology and the sciences and technologies of remote measurement including photogrammetry, total stations and laser scanning, are still developing rapidly. These primary data collection techniques with supporting subjects such as aspects of geodesy all form part of this course. The generation of traditional map information as well as 3D surface models and landscapes are covered. The course introduces data and information management, data integration and fusion, spatial analysis and visualisation through GIS and a range of modelling methods and software’s.

This course provides the opportunity to develop a knowledge and in depth of understanding of surveying practise and underpinning theory with an emphasis on geographical information science. Student will have an opportunity to develop practical skills, experience and a deeper understanding of the subject through some major practical tasks and modules

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The University of Toronto Institute for Aerospace Studies (UTIAS) offers graduate programs leading​ to research-intensive Master of Applied Science (MASc) and Doctor of Philosophy (PhD) degrees and a professionally oriented Master of Engineering (MEng) degree. Read more
The University of Toronto Institute for Aerospace Studies (UTIAS) offers graduate programs leading​ to research-intensive Master of Applied Science (MASc) and Doctor of Philosophy (PhD) degrees and a professionally oriented Master of Engineering (MEng) degree.

Faculty research areas include advanced aerospace structures, aircraft flight systems and control, aerospace mechatronics, autonomous space robotics, combustion and emissions in aviation, combustion and propulsion, computational aerodynamics, computational fluid dynamics and propulsion, computational modelling, and design optimization under uncertainty, dynamic systems, experimental engines, experimental fluid dynamics, flow control and experimental turbulence, fusion energy, nanosatellite and microsatellite missions, space robotics, space and terrestrial autonomous robotic systems, spacecraft dynamics and control and microsatellites, and vehicle simulation.

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The MSc Design for Medical Technologies is aimed at providing the key knowledge and experience to allow you to pursue a career in bioengineering, healthcare or biotechnology. Read more
The MSc Design for Medical Technologies is aimed at providing the key knowledge and experience to allow you to pursue a career in bioengineering, healthcare or biotechnology. The course will expose you to the leading edge of modern medical and surgical technologies, as well as exploring the role of entrepreneurship, business development and intellectual property exploitation.

Why study Design for Medical Technologies at Dundee?

The unique environments of medicine and biotechnology offer exacting challenges in the design of high technology products for use in these fields. Engineers and product designers involved in the development of new biomedical instrumentation, surgical tools or biotechnology products must understand the constrictions placed on them by this environment. As a result, bioengineering has been established as the fusion of engineering and ergonomics with a deep understanding of medical science.

Benefits of the programme include:
Knowledge and understanding of medical and surgical engineering and technology
Skills in research methods, communications, teamwork and management
Appreciation of entrepreneurship and the global 'Medtech' industry
Participation in research activities of world renowned research groups
Preparation for careers in industry, academia and commerce

What's great about Design for Medical Technologies at Dundee?

The University of Dundee is one of the top UK universities, with a powerful research reputation, particularly in the medical and biomedical sciences. It has previously been named Scottish University of the Year and short-listed for the Sunday Times UK University of the year.

The Mechanical Engineering group has a high international research standing with expertise in medical instrumentation, signal processing, biomaterials, tissue engineering, advanced design in minimally invasive surgery and rehabilitation engineering.

Links and research partnerships:

We have extensive links and research partnerships with clinicians at Ninewells Hospital (largest teaching hospital in Europe) and with world renowned scientists from the University's College of Life Sciences.

The new Institute of Medical Science and Technology (IMSaT) at the University has been established as a multidisciplinary research 'hothouse' which seeks to commercialise and exploit advanced medical technologies leading to business opportunities.

The start date is September each year, and lasts for 12 months.

How you will be taught

The structure of the MSc course is divided into two parts. The taught modules expose students to the leading edge of modern medical and surgical technologies. The course gives concepts and understanding of the role of entrepreneurship, business development and intellectual property exploitation in the biomedical industry, with case examples.

The research project allows students to work in a research area of their own particular interest, learning skills in presentation, critical thinking and problem-solving. Project topics are offered to students during the first semester of the course.

What you will study

The three taught modules are:
Imaging and Instrumentation for Medicine and Surgery (30 Credits)
Biomechanics and Biomedical (30 Credits)
Advanced Medical and Surgical Instrumentation (30 Credits)

These modules are followed by the biomedical research project (90 credits).

How you will be assessed

The course is assessed by coursework and examination, plus research project.

Careers

The MSc Design for Medical Technologies is aimed at providing the key knowledge and experience to allow you to pursue a career in bioengineering, healthcare or biotechnology. This opens up a vast range of opportunities for employment in these industries as a design, development or product engineer, research scientist, sales and marketing manager or Director of a start-up company. The programme also provides the ideal academic grounding to undertake a PhD degree leading to a career in academic research.

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Materials are substances or things from which something is or can be made. Technological development is often based on the development of new materials. Read more
Materials are substances or things from which something is or can be made. Technological development is often based on the development of new materials. Materials research plays an important part in solving challenging problems relating to energy, food, water, health and well-being, the environment, sustainable use of resources, and urbanisation.

An expert in materials research studies the chemical and physical bases of existing and new materials; their synthesis and processing, composition and structure, properties and performance. As an expert in materials research, your skills will be needed in research institutions, the technology industry (electronics and electrotechnical industry, information technology, mechanical engineering, metal industry, consulting), chemical industry, forest industry, energy industry, medical technology and pharmaceuticals.

This programme combines expertise from the areas of chemistry, physics and materials research at the University of Helsinki, which are ranked high in international evaluations. In the programme, you will focus on the fundamental physical and chemical problems in synthesising and characterising materials, developing new materials and improving existing ones. Your studies will concentrate on materials science rather than materials engineering.

Upon graduating from the programme you will have a solid understanding of the essential concepts, theories, and experimental methods of materials research. You will learn the different types of materials and will be able to apply and adapt theories and experimental methods to new problems in the field and assess critically other scientists’ work. You will also be able to communicate information in your field to both colleagues and laymen.

Depending on the study line you choose you will gain in-depth understanding of:
-The synthesis, processing, structure and properties of inorganic materials.
-Modelling methods in materials research.
-The structure and dynamics of biomolecular systems.
-The synthesis, structure and properties of polymers.
-Applications of materials research in industrial applications.
-The use of methods of physics in medicine.

The University of Helsinki will introduce annual tuition fees to foreign-language Master’s programmes starting on August 1, 2017 or later. The fee ranges from 13 000-18 000 euros. Citizens of non-EU/EEA countries, who do not have a permanent residence status in the area, are liable to these fees. You can check this FAQ at the Studyinfo website whether or not you are required to pay tuition fees: https://studyinfo.fi/wp2/en/higher-education/higher-education-institutions-will-introduce-tuition-fees-in-autumn-2017/am-i-required-to-pay-tuition-fees/

Programme Contents

In the programme, all teaching is based on the teachers’ solid expertise in the fundamental chemistry and physics of materials. All teachers also use their own current research in the field in their teaching.

Your studies will include a variety of teaching methods such as lectures, exercises, laboratory work, projects and summer schools.

In addition to your major subject, you can include studies in minor subjects from other programmes in chemistry, physics and computer science.

Selection of the Major

At the beginning of your studies you will make a personal study plan, with the help of teaching staff, where you choose your study line. This programme has the following six study lines representing different branches of materials research.

Experimental Materials Physics
Here you will study the properties and processing of a wide variety of materials using experimental methods of physics to characterise and process them. In this programme the materials range from the thin films used in electronics components, future fusion reactor materials, and energy materials to biological and medical materials. The methods are based on different radiation species, mostly X-rays and ion beams.

Computational Materials Physics
In this study line you will use computer simulations to model the structures, properties and processes of materials, both inorganic materials such as metals and semiconductors, and biological materials such as cell membranes and proteins. You will also study various nanostructures. The methods are mostly atomistic ones where information is obtained with atomic level precision. Supercomputers are often needed for the calculations. Modelling research is closely connected with the experimental work related to the other study lines.

Medical Physics
Medical physics is a branch of applied physics encompassing the concepts, principles and methodology of the physical sciences to medicine in clinics. Primarily, medical physics seeks to develop safe and efficient diagnosis and treatment methods for human diseases with the highest quality assurance protocols. In Finland most medical physicists are licensed hospital physicists (PhD or Phil.Lic).

Polymer Materials Chemistry
In this line you will study polymer synthesis and characterisation methods. One of the central questions in polymer chemistry is how the properties of large molecules depend on the chemical structure and on the size and shape of the polymer. The number of applications of synthetic polymers is constantly increasing, due to the development of polymerisation processes as well as to better comprehension of the physical properties of polymers.

Inorganic Materials Chemistry
Thin films form the most important research topic in inorganic materials chemistry. Atomic Layer Deposition (ALD) is the most widely studied deposition method. The ALD research covers virtually all areas related to ALD: precursor synthesis and characterisation, film growth and characterisation, reaction mechanism studies, and the first steps of taking the processes toward applications. The emphasis has been on thin film materials needed in future generation integrated circuits, but applications of ALD in energy technologies, optics, surface engineering and biomaterials are also being studied. Other thin film deposition techniques studied include electrodeposition, SILAR (successive ionic layer adsorption and reaction) and sol-gel. Nanostructured materials are prepared either directly (fibres by electrospinning and porous materials by anodisation) or by combining these or other templates with thin film deposition techniques.

Electronics and Industrial Applications
Sound and light are used both to sense and to actuate across a broad spectrum of disciplines employing samples ranging from red hot steel to smooth muscle fibres. Particular interest is in exploiting the link between the structure and mechanics of the samples. The main emphasis is on developing quantitative methods suitable for the needs of industry. To support these goals, research concentrates on several applied physics disciplines, the main areas being ultrasonics, photoacoustics, fibre optics and confocal microscopy.

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This course aims to provide the knowledge and skills required to design, model and effectively operate secure and dependable digital IP-based networks. Read more
This course aims to provide the knowledge and skills required to design, model and effectively operate secure and dependable digital IP-based networks. It will provide you with the opportunity to gain a sound understanding of the internet protocol suite that forms the core for current data networks. The fusion of the internet world and multimedia is also addressed, as well as wireless communications. You can combine this course with management studies.

Key features
-This course is accredited by BCS, The Chartered Institute for IT.
-You will have the opportunity to study for industry certification, including CISCO, as an optional extra to the masters programme.
-You will have the option to work in one of our state-of-the-art research labs, called WMN (Wireless Multimedia and Networking). WMN is involved in EU and UK research collaborations and offers opportunities for advanced research and short-term research fellowships on completion of your MSc degree.

What will you study?

Using the latest methods and conforming to current network design standards, you will develop a disciplined engineering approach to, and sound practical skills in, the specification, design, modelling and implementation of software and hardware. You will gain specialist knowledge of digital communications , multimedia communications , wireless networks, security issues and other advanced technologies. You will have access to a dedicated test LAN/ WLAN with a diverse range of platforms and equipment, including wireless networks and enterprise scale networking technologies.

The management studies route modules will set your technical knowledge in a management context.

Assessment

Coursework and/or exams, research project/dissertation.

Work placement scheme

Kingston University has set up a scheme that allows postgraduate students in the Faculty of Science, Engineering and Computing to include a work placement element in their course starting from September 2017. The placement scheme is available for both international and home/EU students.

-The work placement, up to 12 months; is optional.
-The work placement takes place after postgraduate students have successfully completed the taught portion of their degree.
-The responsibility for finding the placement is with the student. We cannot guarantee the placement, just the opportunity to undertake it.
-As the work placement is an assessed part of the course for international students, this is covered by a student's tier 4 visa.

Details on how to apply will be confirmed shortly.

Course structure

The full MSc course consists of an induction programme, four taught modules, and project dissertation. Please note that this is an indicative list of modules and is not intended as a definitive list.

Networking and Data Communications MSc modules
-Data Communications
-Wireless Communications and Networks
-Network and Information Security
-Multimedia Communications
-Project Dissertation

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This course aims to provide the knowledge and skills required to design, model and effectively operate secure and dependable digital IP-based networks. Read more
This course aims to provide the knowledge and skills required to design, model and effectively operate secure and dependable digital IP-based networks. It will provide you with the opportunity to gain a sound understanding of the internet protocol suite that forms the core for current data networks. The fusion of the internet world and multimedia is also addressed, as well as wireless communications. You can combine this course with management studies.

Key features

-This course is accredited by BCS, The Chartered Institute for IT.
-You will have the opportunity to study for industry certification, including CISCO, as an optional extra to the masters programme.
-You will have the option to work in one of our state-of-the-art research labs, called WMN (Wireless Multimedia and Networking). WMN is involved in EU and UK research collaborations and offers opportunities for advanced research and short-term research fellowships on completion of your MSc degree.

What will you study?

Using the latest methods and conforming to current network design standards, you will develop a disciplined engineering approach to, and sound practical skills in, the specification, design, modelling and implementation of software and hardware. You will gain specialist knowledge of digital communications , multimedia communications , wireless networks, security issues and other advanced technologies. You will have access to a dedicated test LAN/ WLAN with a diverse range of platforms and equipment, including wireless networks and enterprise scale networking technologies.

The management studies route modules will set your technical knowledge in a management context.

Assessment

Coursework and/or exams, research project/dissertation.

Work placement scheme

Kingston University has set up a scheme that allows postgraduate students in the Faculty of Science, Engineering and Computing to include a work placement element in their course starting from September 2017. The placement scheme is available for both international and home/EU students.

-The work placement, up to 12 months; is optional.
-The work placement takes place after postgraduate students have successfully completed the taught portion of their degree.
-The responsibility for finding the placement is with the student. We cannot guarantee the placement, just the opportunity to undertake it.
-As the work placement is an assessed part of the course for international students, this is covered by a student's tier 4 visa.

Details on how to apply will be confirmed shortly.

Course structure

The full MSc course consists of an induction programme, four taught modules, and project dissertation. Please note that this is an indicative list of modules and is not intended as a definitive list.

Networking and Data Communications with Management Studies MSc modules
-Data Communications
-Wireless Communications and Networks
-Network and Information Security
-Business in Practice
-Project Dissertation

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Please note due to the great demand for our programmes early applications are assessed when received and dealt with promptly. Therefore it is advisable to make early applications for an early response. Read more
Please note due to the great demand for our programmes early applications are assessed when received and dealt with promptly. Therefore it is advisable to make early applications for an early response. If you do not yet have your final degree results this will not hinder your application as we are happy to issue conditional offer letters in such circumstances.

The MSc in Business and Entrepreneurship is an exciting one-year programme dedicated to transforming Science, Engineering, Social Science and Technology graduates into leaders who will guide and create tomorrow's businesses (Note: business graduates, or those with a substantial business component to their undergraduate degree, are not eligible for this programme). It aims to achieve this through providing participants with the acumen to successfully move ideas and innovations into commercial practice. In doing so, it addresses Ireland's need to maintain competitiveness by cultivating cross-functional, entrepreneurial graduates. This programme draws on the unique capability and reputation of the Dublin Institute of Technology, which was founded from the fusion of Ireland's oldest and most successful business and technology colleges.

Career Opportunities

The programme provides participants with the skills and orientation towards enterprise creation, either in an existing business or as a start-up. Graduates will have enhanced career prospects for a wide range of posts in Irish and international businesses.

Course Content

Studies in Semester 1 cover the subjects of Strategy, Marketing, Technology and Operations Management, Venture Finance and Law. Such accelerated learning is designed to give participants the conceptual tools needed to analyse business situations and to undertake business planning. In tandem, participants engage in the initial stages of work on two separate substantive elements of the programme within a seminar/workshop format: (i) the product development project and business development plan; and (ii) the dissertation.

Building on learning from the first semester, studies in Semester 2 cover the subjects of Creativity, Marketing, Technology and Operations Management, Accounting, Law and Taxation. Work also continues on the product development project and business development plan, with support available through weekly group sessions with the module advisors for the 12 class weeks of the semester. Participants then work on their own through to submission of the joint project/plan document in early September. In tandem, participants move to greater engagement with their dissertation research and have the opportunity to work 1-to-1 for a total of four hours with an assigned advisor up to mid-June, at which point participants work on their own through to submission of the dissertation in early September. Submission of both the joint project/plan document and the dissertation marks the end of the programme.

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The results of unsustainable human development in the 21st century are evident as climate change, species extinction, pollution, poverty and inequality become inescapable global realities. Read more

About the course

The results of unsustainable human development in the 21st century are evident as climate change, species extinction, pollution, poverty and inequality become inescapable global realities. The next big challenge for society is to transform our economy to incorporate the principles of sustainability. This presents an exciting opportunity to rethink, redesign and rebuild a positive future for business practice.

The MSc in Sustainability, Entrepreneurship and Design (with Professional Development) is an 18-month programme – 12 months for the study at Brunel followed by a six-month professional development phase. There is an option to complete the MSc in Sustainability,
Entrepreneurship and Design in 12 months (without the professional development phase) but students will be encouraged to engage with the professional development phase to achieve the maximum from the programme.

Brunel University also offers the Graduate Entrepreneur post-study visa, which represents a perfect opportunity for our international graduates to apply their new skills in the UK following graduation.

The course is jointly run between the College of Health and Life Sciences, the School of Engineering, Design and Physical Sciences, and Brunel Business School.

Aims

This programme will equip entrepreneurial minded graduates with two essential ingredients:

- firstly, the mindset and ability to play a key role in building a sustainable world – one that is not only prosperous, but also environmentally stable and socially inclusive
- secondly, hands-on experience, such that they can become entrepreneurs, business leaders, change-makers and innovators.

Upon graduating, students will be able to become key figures in local, regional, national or global businesses; holistic thinkers and visionary leaders in their communities, corporations, businesses, non-profit organizations and government agencies.

They will be encouraged to infuse environmental awareness into societies and make tangible contributions to the theory and practice of environmental protection, sustainable business and a circular (green) economy.

Course Content

Core modules

Introduction to Strategic Sustainable Development
Entrepreneurship
Business Planning
International Business Ethics, Sustainability and Corporate Governance
Sustainable Design
Professional Design Studio
Integrated Assessment - Sustainability, Entreprenuership and Design
Dissertation
Sustainable Development in Practice (Compulsory for the MSc with professional development).

Teaching

The programme will be delivered beginning with an overview of core concepts and followed by progressively deeper consideration and application of the concepts later on through a self-directed learning approach. It is structured to provide leadership opportunities and move progressively from learning the "rules of the game" to "playing the game". This means that as the programme progresses it becomes less instructor-led and more student-led where students direct their learning towards their own needs and tap the collective wisdom of the group via project work.

There will be four integrated streams:

1. Ecological and sustainability theory
2. Leadership
3. Design and Innovation
4. Business planning and start up.

The benefits of this combination will be unique; students will be cross trained, drawing upon the resources of a world class university. They will develop three complementary networks of peers and alumni and engage in Brunel’s collegiate experience, interacting with students and faculty from three corners of the university. Through this combination, graduates will able to enter the professional arena with an energetic and inspired approach to societal change.

By taking part in the programme, students will gain:

o The deep scientific knowledge for strategic planning towards a sustainable society, including ecological theory and sustainability design principles
o Innovation, creativity and team working skills
o Experiential learning and mentorship from leading entrepreneurs and business leaders
o Communication skills to enable working with members of engineering, design and marketing teams
o Leadership skills
o Intensive corporate exposure
o Career paths as sustainability practitioners in business, academia, government, and community organisations.
o Business start up opportunities
o Membership of the Made in Brunel Sustainable Business alumni, an elite group of successful ecopreneurs and their mentors
o Additional support to enhance your employability skills beyond the MSc through the Business Life Programme.

Assessment

- Integrated coursework on core sustainability and business, and sustainability & design module content.
- Formal written examinations
- Individual and Group coursework assignments
- Oral and Poster presentations
- Dissertation in the form of a Business plan, product design or research proposal
- Reflective Portfolio (for optional six-month Professional Development period)

Special Features

The programme has a number of innovative features. For example:

The fusion of environmental education with design, entrepreneurial and business skills

Structural flexibility - so that the needs and desires of individuals can be met through offering optional modules within various themes relevant to sustainable enterprise

Practice based assessments - for example, the development of a detailed business plan for those who wish to start their own business, a product design for those taking the designer/innovator route, or a research proposal for those wishing to pursue a career in research or bid writing

Professional development activities - following the multidisciplinary learning programme, students will undertake a six month professional development activity in which - for example - they will undertake an internship or start their own business. (The provision of incubator space for these students will be an integral part of the MSc and is another distinctive feature of the programme. The students will also be equipped with pitching skills and a business mentor).

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This is a truly international course, attracting students from all over the world with a diverse range of cultures and identities. Read more
This is a truly international course, attracting students from all over the world with a diverse range of cultures and identities. It will provide you with a strong theoretical and technical underpinning for the principal areas of study thanks to lecture series on filmmaking techniques, green screen, MOCAP, computer graphic principles, the fusion of art and technology, personal research, and applied digital effects theory and practice.

We accept students from a broad range of art-based subject areas including fine art, photography, architecture, filmmaking, fashion design, and graphic design. We will also consider applications from non-art based subjects such as computer sciences or engineering, as long as good art skills can be demonstrated. Knowledge of digital effects and computer graphics are not a pre-requisite for entry, as everything is rapidly taught from basics. A strong set of traditional art and photography skills are however highly beneficial, and demonstration of all art-based skills should be done at application stage in the form of a digital portfolio.

MA Digital Effects and the National Centre for Computer Animation is the UK’s only officially recognised Houdini Certified School. This incredible software is now at the forefront of the VFX Industry, and knowledge of it is a must for anyone wanting to progress their careers in this field.

Digital Effects is one of three Master's degree pathways created by the National Centre for Computer Animation NCCA. All pathways share a great deal of core teaching, but also have specific pathway teaching. If your primary area of interest is mostly illustration or figurative character-based, then our 3D Computer Animation Programme may be a better choice for you. If your application portfolio is mostly technical or programming-based work without much in the way of original artwork, then our Computer Animation & Visual Effects Programme may be the better choice. Our assessment panels will automatically pass applications deemed better suited to another pathway onto them, so it is a good idea to familiarise yourself with all our Master's pathways to help ensure Digital Effects is the right programme for you.

Please watch the recorded BU Webinar 'MA Digital Effects'. Presented by Phil Spicer, Senior Lecturer In Computer Animation, this webinar will give you an excellent insight into this Master's programme.

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