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This is the only programme of its kind in the UK, giving you high-level skills and training across the rapidly developing area of carbon capture and storage (CCS). Read more

Programme description

This is the only programme of its kind in the UK, giving you high-level skills and training across the rapidly developing area of carbon capture and storage (CCS).

Global energy demands are still rising, and fossil fuels remain central to meeting those demands in the medium term. CCS is a recognised solution to reducing CO2 emissions until fossil fuels are entirely replaced by renewable energy technologies.

With commercial trials under way, countries and industries are investing in this new technology. In the UK, all existing power stations must have a full-scale retrofit of CCS within five years of the technology being independently judged as technically and commercially proven.

This MSc draws on our world-class interdisciplinary academic research and the insights we have gained from projects involving our industrial stakeholders.

This programme is affiliated with the University's Global Environment & Society Academy.

Programme structure

The MSc has two semesters of lectures and practical classes, followed by a research dissertation of up to 15,000 words. The programme includes industry guest lectures as well as opportunities for fieldwork and industry site visits to a range of locations.

Designed for graduates of engineering or geoscience-related subjects, the programme provides high-level skills and training in the entire value chain of CCS, including combustion, transport, geoscience and legal aspects.

Compulsory courses typically include*:
•Carbon Economics
•Carbon Capture and Transport
•Hydrocarbons (compulsory for students without a geoscience background)
•Carbon Storage and Monitoring
•Dissertation
•Geology for Earth Resources (compulsory for students without a geoscience background)

Option courses:

In consultation with the Programme Director, you will choose from a range of option courses*. We particularly recommend:
•Fundamentals for Remote Sensing
•Novel Strategies for Carbon Storage in Soil
•SeismicReflection Interpretation
•Energy & Society
•Geology for Earth Resources
•Principles of Geographical Information Science
•Spatial Modelling
•Understanding Environment and Development
•Climate Change and Corporate Strategy
•Energy Policy and Politics
•Hydrocarbon Reservoir Quality
•Introduction to Radar Remote Sensing
•Political Ecology
•Separation Processes For Carbon Capture
•Technology and Innovation Management

*Please note that courses are offered subject to timetabling and availability and are subject to change each year.

Career opportunities

Graduates can enter into all manner of jobs due to the transferable and highly desirable nature of the skills gained. However, typically our graduates pursue careers in business, industry, government and non-governmental organisations in the field of low-carbon energy production.

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The MSc portfolio within our Energy & Power programme has recently been reviewed. This is to ensure that our courses are attractive to prospective students and to make sure that the courses titles and student learning outcomes are relevant to future employers. Read more
The MSc portfolio within our Energy & Power programme has recently been reviewed. This is to ensure that our courses are attractive to prospective students and to make sure that the courses titles and student learning outcomes are relevant to future employers. As a result of the review we are launching new course titles, reorganising and renaming some courses and withdrawing others.

As part of this review, the decision has been taken to remove Carbon Capture and Storage from our portfolio for 2017/18 registration. We are confident that we can offer a suitable and exciting replacement and believe that the Advanced Chemical Engineering MSc is most closely aligned to this course. Below are the available MSc’s in our Energy & Power programme:

Advanced Mechanical Engineering
Design of Rotating Machines
Energy Systems & Thermal Processes
Flow Assurance for Oil & Gas Production
Process Systems Engineering
Energy from Waste
Offshore Materials Engineering
Offshore Pipeline Engineering
Offshore Risk Management
Offshore Subsea Engineering
Renewable Energy Engineering
Renewable Energy Technology
Offshore Renewable Energy
Geothermal Engineering.

Alternatively if you would like to discuss your options further please email

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The MSc in Smart Grid Demand Management (See http://www.postgraduate.hw.ac.uk/prog/msc-smart-grid-demand-management/ ) has been designed to progress students with an Electrical or Mechanical Engineering background to an expert in the understanding of a smart grid. Read more

Overview

The MSc in Smart Grid Demand Management (See http://www.postgraduate.hw.ac.uk/prog/msc-smart-grid-demand-management/ ) has been designed to progress students with an Electrical or Mechanical Engineering background to an expert in the understanding of a smart grid. By following a carefully selected set of courses covering energy resources (fossil and renewable), conversion technologies, electrical power generation, energy storage technologies, demand management, and energy economics. Graduates of this programme will be confident in all aspects of this subject. With a clear focus on smart Grid and Demand Management the programme provides;
- Knowledge and understanding of advanced scientific and mathematical principles relevant to the understanding, analysis and modelling of a smart grid.
- An understanding of fundamental facts, concepts, and technologies for demand management and energy storage.
- Knowledge and skill to apply engineering principles to design a system, component or process
- An ability to undertake independent research.
- Professional attitudes to implementation of safety and concepts embodied by sustainability.
- An ability to communicate effectively
- Familiarity with the application of relevant computer tools to the profession.

All aspects of the smart grid are integrated in a dedicated smart grid modelling course, which provides the mathematical and computational skills to model a smart grid. This course is unique to this programme and will give graduates the skills they need to enhance their career prospects.

The Scottish Funding Council has made available 20 scholarships covering fees only to students with Scottish backgrounds. 5 of these places are reserved for applicants to this programme in the first instance. The remaining places are spread over all our Energy based MSc programmes. There is no separate application process for this. If you are eligible, you will be considered automatically. You will be notified through the summer if you have been selected.

Scholarships available

We have a number of fully funded Scottish Funding Council (SFC) scholarships available for students resident in Scotland applying for Smart Grid Demand Management MSc. Find out more about this scholarship and how to apply http://www.hw.ac.uk/student-life/scholarships/postgraduate-funded-places.htm .

Programme content

Semester One - All courses are Mandatory
- B51ET Foundations of Energy
This course provides the foundations for the quantitative analysis of energy resources and conversion efficiencies through various technologies. It also places energy production and consumption into the wider field of environmental and socio-economic factors

- B51GE Renewable Energy Technologies
This course introduces the range of Renewable Energy resources together with established and emerging technologies. It provides the skills for a quantitative assessment of the Renewable Energy resources and the expected energy and power output from typical or specific installations.

- B31GA Electrical Power Systems
This course covers the operation of interconnected electrical power systems. Such interconnected power systems combine a number of different components, generators, transmission lines, transformers and motors, which must be appreciated to understand the operation of the interconnected system.

- C21EN Environmental and Energy Economics
This course introduces students to the core concepts and methods of modern economics, and environmental and energy economics in particular.

Semester Two – All courses are Mandatory
- B31GG Smart grid modeling
This course introduces the mathematical skills to model the operation of an electricity or energy network at a statistical and dynamical level, incorporating key elements of a smart grid, including technological constraints, economic drivers and information exchange.

- B31GB Distributed Generation
This course equips students with an understanding of the role of distributed generation in electrical energy networks. It provides students with an overview of distributed generation techniques and describes the contribution of distributed generation to network security. The course introduces the economics of distributed generation and the assessment of distributed generation schemes. It introduces students to the concept of intermittent sources and their contribution to capacity in electrical power systems and provides a detailed review of the reliability, fault and stability studies of distributed generation schemes.

- B51GK Demand Management and Energy Storage
This course provides students with an overview of demand-side management and its contribution to network capacity and security. It reviews energy storage technologies and their contribution to the integration of renewable generation and the operation of large-scale electrical network. It introduces students to the methods of interfacing energy storage mechanisms to electrical networks. The course describes the contribution energy storage technology can make to transportation and industry

- B81EZ Critical Analysis and Research Preparation
This course provides research training and addresses literature review skills, project planning, data analysis and presentation with a focus to critically discuss literature, and use data to support an argument.

- B31VZ MSc Project
An individual project led by a research active member of staff or an industrial partner on a topic relevant to smart grid technology, demand management technologies or approaches or smart grid/ electricity / energy systems modelling.

English language requirements

If you are not from a UKBA recognised English speaking country, we will need to see evidence of your English language ability. If your first degree was taught in English a letter from them confirming this will be sufficient. Otherwise the minimum requirement for English language is IELTS 6.5 or equivalent, with a minimum of 5.5 in each skill.

The University offers a range English language courses (See http://www.hw.ac.uk/study/english.htm ) to help you meet the English language requirement prior to starting your masters programme:
- 14 weeks English (for IELTS of 5.5 with no more than one skill at 4.5);
- 10 weeks English (for IELTS of 5.5 with minimum of 5.0 in all skills);
- 6 weeks English (for IELTS 5.5 with minimum of 5.5 in reading & writing and minimum of 5.0 in speaking & listening)
- 3 weeks English refreshers course (for students who meet the English condition for the MSc but wish to refresh their English skills prior to starting).

Find information on Fees and Scholarships here http://www.postgraduate.hw.ac.uk/prog/msc-smart-grid-demand-management/

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Our Energy programmes allow you to specialise in areas such as bio-energy, novel geo-energy, sustainable power, fuel cell and hydrogen technologies, power electronics, drives and machines, and the sustainable development and use of key resources. Read more

Course Overview

Our Energy programmes allow you to specialise in areas such as bio-energy, novel geo-energy, sustainable power, fuel cell and hydrogen technologies, power electronics, drives and machines, and the sustainable development and use of key resources.

Research Areas

Bio-energy:
Our research spans the whole supply chain: growing novel feedstocks (various biomass crops, algae etc); processing feedstocks in novel ways; converting feedstocks into fuels and chemical feedstocks; developing new engines to use the products.
Cockle Park Farm has an innovative anaerobic digestion facility. Work at the farm will develop, integrate and exploit technologies associated with the generation and efficient utilisation of renewable energy from land-based resources, including biomass, biofuel and agricultural residues.
We also develop novel technologies for gasification and pyrolysis. This large multidisciplinary project brings together expertise in agronomy, land use and social science with process technologists and engineers and is complemented by molecular studies on the biology of non-edible oilseeds as sources for production of biodiesel.

Novel geo-energy:
New ways of obtaining clean energy from the geosphere is a vital area of research, particularly given current concerns over the limited remaining resources of fossil fuels.
Newcastle University has been awarded a Queen's Anniversary Prize for Higher Education for its world-renowned Hydrogeochemical Engineering Research and Outreach (HERO) programme. Building on this record of excellence, the Sir Joseph Swan Centre for Energy Research seeks to place the North East at the forefront of research in ground-source heat pump systems, and other larger-scale sources of essentially carbon-free geothermal energy, and developing more responsible modes of fossil fuel use.
Our fossil fuel research encompasses both the use of a novel microbial process, recently patented by Newcastle University, to convert heavy oil (and, by extension, coal) to methane, and the coupling of carbon capture and storage (CCS) to underground coal gasification (UCG) using directionally drilled boreholes. This hybrid technology (UCG-CCS) is exceptionally well suited to early development in the North East, which still has 75% of its total coal resources in place.

Sustainable power:
We undertake fundamental and applied research into various aspects of power generation and energy systems, including: the application of alternative fuels such as hydrogen and biofuels to engines and dual fuel engines; domestic combined heat and power (CHP) and combined cooling, heating and power (trigeneration) systems using waste vegetable oil and/or raw inedible oils; biowaste methanisation; biomass and biowaste combustion, gasification; biomass co-combustion with coal in thermal power plants; CO2 capture and storage for thermal power systems; trigeneration with novel energy storage systems (including the storage of electrical energy, heat and cooling energy); engine and power plant emissions monitoring and reduction technology; novel engine configurations such as free-piston engines and the reciprocating Joule cycle engine

Fuel cell and hydrogen technologies:
We are recognised as world leaders in hydrogen storage research. Our work covers the entire range of fuel cell technologies, from high-temperature hydrogen cells to low-temperature microbial fuel cells, and addresses some of the complex challenges which are slowing the uptake and impact of fuel cell technology.
Key areas of research include: biomineralisation; liquid organic hydrides; adsorption onto solid phase, nano-porous metallo-carbon complexes

Sustainable development and use of key resources:
Our research in this area has resulted in the development and commercialisation of novel gasifier technology for hydrogen production and subsequent energy generation.
We have developed ways to produce alternative fuels, in particular a novel biodiesel pilot plant that has attracted an Institution of Chemical Engineers (IChemE) AspenTech Innovative Business Practice Award.
Major funding has been awarded for the development of fuel cells for commercial application and this has led to both patent activity and highly-cited research. Newcastle is a key member of the SUPERGEN Fuel Cell Consortium. Significant developments have been made in fuel cell modelling, membrane technology, anode development and catalyst and fuel cell performance improvements.

Training and Skills

As a research student you will receive a tailored package of academic and support elements to ensure you maximise your research and future career. The academic information is in the programme profile and you will be supported by our Postgraduate Researcher Development Programme, doctoral training centres and Research Student Support Team.

For further information see http://www.ncl.ac.uk/postgraduate/courses/degrees/energy-mphil-phd/#training&skills

How to apply

For course application information see http://www.ncl.ac.uk/postgraduate/courses/degrees/energy-mphil-phd/#howtoapply

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Distributed and networked computation is now the paradigm that underpins the software-enabled systems that are proliferating in the modern world, with huge impact in the economy and society, from the sensor and actuator networks that are now connecting cities, to cyberphysical systems, to patient-centred healthcare, to disaster-recovery systems. Read more
Distributed and networked computation is now the paradigm that underpins the software-enabled systems that are proliferating in the modern world, with huge impact in the economy and society, from the sensor and actuator networks that are now connecting cities, to cyberphysical systems, to patient-centred healthcare, to disaster-recovery systems.

This new Masters course will educate and train you in the fundamental principles, methods and techniques required for developing such systems. Given the number of elective modules offered, you will be able to acquire further skills in one or more of Cloud Computing, Data Analytics and Information Security.

Facilities include a laboratory where you can experiment with physical devices that can be interconnected in a network, and a cluster facility configured to run the Hadoop MapReduce stack.

A Year in Industry option is also available for this course.

See the website https://www.royalholloway.ac.uk/computerscience/coursefinder/msc-distributed-and-networked-systems.aspx

Why choose this course?

This course will develop a highly analytical approach to problem solving and a strong background in distributed and networked systems, fault-tolerance and data replication techniques, distributed coordination and time-synchronisation techniques (leader-election, consensus, and clock synchronisation), data communication protocols and software stacks for wireless, sensor, and ad hoc networking technologies in virtualisation, and cloud computing technologies.

The course develops an advanced understanding of principles of failure detection and monitoring, principles of scalable storage, and in particular NoSQL technology.

Students will acquire the ability to:
- apply well-founded principles to building reliable and scalable distributed systems
- analyse complex distributed systems in terms of their performance, reliability, and correctness
- design and implement middleware services for reliable communication in unreliable networks
- work with state-of-the-art wireless, sensor, and ad hoc networking technologies
- design and implement reliable data communication and storage solutions for wireless, sensor, and ad hoc networks
- detect sources of vulnerability in networks of connected devices and deploy the appropriate countermeasures to information security threats.
- enforce privacy in “smart” environments
- work with open source and cloud tools for scalable data storage (DynamoDB) and coordination (Zookeeper)
- work with modern network management technologies (Software-Defined Networking) and standards (OpenFlow)
- design custom-built application-driven networking topologies using OpenFlow, and other modern tools
- work with relational databases (SQL), non-relational databases (MongoDb), as well as with Hadoop/Pig scripting and other big data manipulation techniques.

Department research and industry highlights

Royal Holloway is recognised for its research excellence in Machine Learning, Information Security, and Global Ubiquitous Computing.
We work closely with companies such as Centrica (British Gas, Hive), Cognizant, Orange Labs (UK), the UK Cards Association, Transport for London and ITSO.
We host a Smart Card Centre and we are a GCHQ Academic Centre of Excellence in Cyber Security Research (ACE-CSR).

Course content and structure

You will take taught modules during Term One (October to December) and Term Two (January to March). Examinations are held in May. If you are in the Year-in-Industry pathway, you then take an industrial placement, after which you come back for your project/dissertation (12 weeks).

Core course units are:
Interconnected Devices
Advanced Distributed Systems
Wireless, Sensor and Actuator Networks
Individual Project

Elective course units are:

Computation with Data
Databases
Introduction to Information Security
Data Visualisation and Exploratory Analysis
Programming for Data Analysis
Semantic Web
Multi-agent Systems
Advanced Data Communications
Machine Learning
Concurrent and Parallel Programming
Large-Scale Data Storage and Programming
Data Analysis
On-line Machine Learning
Smart Cards, RFIDs and Embedded Systems Security
Network Security
Computer Security
Security Technologies
Security Testing
Software Security
Introduction to Cryptography

Assessment

Assessment is carried out by a variety of methods including coursework, practical projects and a dissertation.

Employability & career opportunities

Our graduates are highly employable and, in recent years, have entered many different [department]-related areas, including This taught masters course equips postgraduate students with the subject knowledge and expertise required to pursue a successful career, or provides a solid foundation for continued PhD studies.

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This MSc teaches an international community of students about the latest advances in clean power developments and enables graduates to design and develop benign renewable energy solutions that can be implemented in countries around the world. Read more
This MSc teaches an international community of students about the latest advances in clean power developments and enables graduates to design and develop benign renewable energy solutions that can be implemented in countries around the world.

It is aimed at engineers and natural scientists pursuing or wishing to pursue a career in the renewable energy sector, particularly those in technical positions e.g. systems designers, technical consultants and R&D engineers and scientists.

Core study areas include solar power, wind power, water power, biomass, sustainability and energy systems, integration of renewables and a research project.

Optional study areas include advanced solar thermal, advanced photovoltaics, advanced wind, energy storage, energy system investment and risk management.

See the website http://www.lboro.ac.uk/study/postgraduate/programmes/departments/eese/renewable-energy-systems-tech/

Programme modules

Compulsory Modules:
- Solar Power
- Wind Power 1
- Water Power
- Biomass
- Sustainability and Energy Systems
- Integration of Renewables
- Research Project

Optional Modules (choose three):
- Advanced Solar Thermal
- Advanced Photovoltaics
- Wind Power 2
- Energy Storage
- Energy System Investment and Risk Management

How will you learn

You can select options to develop a chosen specialism in greater depth, including through your individual project which is often carried out with renewable energy companies or alongside the research portfolio of our international experts.

This is a very practical course backed up by strong theoretical understanding of the principles and facts behind renewable energy production.

Assessment is via a mixture of written and practical coursework and examinations. The individual research project is also assessed by viva. Because of its multidisciplinary nature, assessment may be done in collaboration with academic colleagues from Civil Engineering, Mechanical Engineering and Materials.

Facilities

We have current industrial equipment and laboratories for PV cell production, PV module production, qualification testing, PV quality control, energy storage research facilities, vacuum glazing, wind flow measurement, and instrumentation for energy consumption and monitoring.

You will benefit from experience with industrial tools and software for system design (e.g. PV Syst, WASP, ReSoft Windfarm, DNV GL Windfarmer), materials research hardware (e.g. pilot lines for commercial solar cell production) and quality control laboratories.

This enables you to acquire the practical skills that industry uses today and builds the foundations for developing your knowledge base throughout their career.

Careers and further study

There is a world-wide shortage of skilled engineers in this field and so the combination of hands on experience with global industry standard tools and techniques and the strong theoretical knowledge which graduates of this course acquire, makes them highly attractive to employers.

Students may carry out their projects as part of a short-term placement in a company and graduates of this course are often fast-tracked in their applications. Consequently we have an extensive network of alumni, many in top jobs.

Why choose electronic, electrical and systems engineering at Loughborough?

We develop and nurture the world’s top engineering talent to meet the challenges of an increasingly complex world. All of our Masters programmes are accredited by one or more of the following professional bodies: the IET, IMechE, InstMC, Royal Aeronautical Society and the Energy Institute.

We carefully integrate our research and education programmes in order to support the technical and commercial needs of society and to extend the boundaries of current knowledge.

Consequently, our graduates are highly sought after by industry and commerce worldwide, and our programmes are consistently ranked as excellent in student surveys, including the National Student Survey, and independent assessments.

- Facilities
Our facilities are flexible and serve to enable our research and teaching as well as modest preproduction testing for industry.
Our extensive laboratories allow you the opportunity to gain crucial practical skills and experience in some of the latest electrical and electronic experimental facilities and using industry standard software.

- Research
We are passionate about our research and continually strive to strengthen and stimulate our portfolio. We have traditionally built our expertise around the themes of communications, energy and systems, critical areas where technology and engineering impact on modern life.

- Career prospects
90% of our graduates were in employment and/or further study six months after graduating. They go on to work with companies such as Accenture, BAE Systems, E.ON, ESB International, Hewlett Packard, Mitsubishi, Renewable Energy Systems Ltd, Rolls Royce and Siemens AG.

Find out how to apply here http://www.lboro.ac.uk/study/postgraduate/programmes/departments/eese/renewable-energy-systems-tech/

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The opportunity to exploit Big Data is recognised world-wide and some countries include it in their economic strategies. The UK Government identified Big Data as one of the 8 great technologies which will have a strong impact on growth and the Scottish Government highlights it as an emerging opportunity for Scotland. Read more
The opportunity to exploit Big Data is recognised world-wide and some countries include it in their economic strategies. The UK Government identified Big Data as one of the 8 great technologies which will have a strong impact on growth and the Scottish Government highlights it as an emerging opportunity for Scotland.

Our MSc in Data Science aims to produce specialist data scientists with training in industry relevant data acquisition, storage, warehousing, analytics and visualisation tools and techniques and a good understanding of the needs of industry. The course will prepare graduates in technical disciplines for a career in the design and implementation use of computer-analytics and visualisation solutions for industry.

Visit the website: http://www.rgu.ac.uk/computing/study-options/postgraduate/masters-in-data-science

Course detail

The course will focus on satisfying industry’s demand for data scientists who have the ability to:

• Apply appropriate data science tools and techniques to industry’s data in order to uncover important, previously unknown information only implicit in the data.
• Relate a company’s key performance indicators to a data science problem area in order to focus a data science task.
• Handle large amounts of real-time, non-persistent, data.
• Contribute to business decision-making by effectively communicating (potentially large volumes of) key data visually.
• Understand, clean up, summarise, interpret and manage data.
• Grasp key knowledge about new problem areas in order to communicate with end-users; understand key business needs and processes and identify added value through data analytics.
• Provide user-centred data analytics at an appropriate level.
• Protect and share data as appropriate.

The course will emphasise Big Data, covering not only traditional data management systems but also systems where data and/or its storage is unstructured.

Format

Throughout the course, content is complemented by practical work, allowing you to support your theoretical knowledge with practical experience in data storage, mining, warehousing, visualisation and analysis as well as transferrable skills. You will be taught through a mixture of lectures, tutorials, labs. You will be invited to attend talks presented by highly-experienced researchers, speakers from industry, and members of the BCS (British Computer Society) on a wide range of industry-related topics. You will also be supported through our online virtual learning environment where you can access a wide variety of resources and other support materials.

The individual project provides an opportunity for applying specialist knowledge together with analytic, problem-solving, managerial and communication skills to a particular area of interest within data science. Working with the full support and guidance of an allocated project supervisor, you will be given the opportunity to propose, plan, specify, develop, evaluate, and present a substantial project.

Placements and accreditation

Students who perform particularly well during their first semester of studies will be invited to apply for a 45-week internship.

Careers

The course prepares you for a career in Data Science. Job openings include: Data Scientist, Data Analyst, Data Visualisation Specialist, Data Manager, Database Designer/Manager, Data Mining Expert and Big Data Scientist.

Aberdeen is home to many multinational oil and gas companies and associated suppliers such as mainstream software houses, IT providers to major oil-related companies, specialist software consultancies, and venture capital start-ups.

The university is involved in a number of commercial collaborations on a local, national and international scale with organisations such as BP, British Geological Survey, Wood Group PSN, Accenture, WIPRO and many Aberdeen-based software development companies.

The course also prepares students for research careers by providing the skills necessary of an effective researcher. Suitable MSc graduates may continue to PhD programmes within the school.

How to apply

To find out how to apply, use the following link: http://www.rgu.ac.uk/applyonline

Funding

For information on funding, including loans, scholarships and Disabled Students Allowance (DSA) please click the following link: http://www.rgu.ac.uk/future-students/finance-and-scholarships/financial-support/uk-students/postgraduate-students/postgraduate-students/

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The Master of Science course in Energy Engineering is aimed at students trained as general engineers with skills on the new technologies relevant to the energy conversion and its rational use. Read more
The Master of Science course in Energy Engineering is aimed at students trained as general engineers with skills on the new technologies relevant to the energy conversion and its rational use. Candidates will be required to plan, design and manage energy systems blending creative solutions with up-to-date technologies relative to energy conversion and efficiency enhancement.

At the end of the course, engineers will be good at operating in the current technological/industrial environment - i.e. a dynamic and competitive one - and sensitive to the main industry, environment and security issues and standards.

The main aim of the course is to offer an in-depth theoretical and practical understanding of the most advanced energy conversion technologies, including renewable energy generation and energy storage.

Please visit http://www.en2.unige.it for any further information.

The Course is held at Savona Campus, in the city of Savona.

WHAT WILL YOU STUDY AND FUTURE PROSPECTS

The course consists of modules that include thermo-fluid dynamics and thermo-chemical dynamics, as well as fluid machinery and energy conversion systems (co-generation, fuel cells, power plants from renewable energy sources and smart grids), traditional energy and civil engineering plants, electric networks, economics, available and emerging technologies for reducing greenhouse gas emissions and environmental monitoring.

A rising interest in and increased urge for 20/20/20 policies in Europe has resulted in a growing industrial demand for highly qualified Energy Engineers with a sound knowledge and specific skills to analyze, design and develop effective solutions in a broad range of contexts. Furthermore, in the last few years both emerging industrial countries and developing ones have increased their awareness of environmental issues and energy production and started implementing large energy engineering projects thus boosting the job opportunities worldwide. The course is aimed at students seeking high qualification in the following main fields:

Energy conversion processes from chemical, bio-chemical, thermal sources into mechanical and electrical ones

Sustainable & Distributed Energy: renewable energy (solar, geothermal, wind, hydro), fuel cells, bio-fuels, smart power grids, low emission power plants Sustainable Development: C02 sequestration, LCA analysis, biomass exploitation, Energy Audit in buildings, energy from waste, recycling, modeling and experimental techniques devoted to optimum energy management.

The MSc course work in partnership with industries and research institutes in Liguria, in Italy and abroad.

WHAT DOES THE MASTER IN ENERGY ENGINEERING OFFER TO ITS STUDENTS

In the last years both industrialization and population growth have brought to a higher demand for sustainable energy, smart energy management with reduced environmental impact. As a result the MSc Energy Engineering was born out of the need to better cope with Sustainable Development issues and progress in energy conversion technologies, in including renewable energy generation and energy storage, NZE buildings, with an increasing attention devoted to greenhouse gas emissions reduction through a multidisciplinary approach.

This MSc course is taught in English and students are supported in achieving higher English language skills. The University of Genoa set its modern campus in Savona and in the last few years, public and private funds have been invested to improve its infrastructures, sport facilities, hall of residence, library and an auditorium.

The University of Genoa and Siemens jointly developed a smart polygeneration microgrid in Savona Campus – officially commissioned on February 2014.

Since then the campus has largely generated enough power to satisfy its own needs with the help of several networked energy producers, i.e. total capacity 250Kw of electricity and 300kW of heating.

The grid includes microgasturbines, absorption chillers, a photovoltaic plant, a solar power station and electrochemical and thermal storage systems.

This huge facility together with a series of laboratories located at the Campus (e.g. Combustion Lab, Energy Hub Lab) offer the students a unique opportunity for hands-on activities, e.g. to measure and investigate the performance of real scale innovative energy systems.

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The full time, distance learning MA Preventive Conservation course will immerse you in the world of preventive conservation and collections care by engaging you with the complexities and challenges of professional practice. Read more
The full time, distance learning MA Preventive Conservation course will immerse you in the world of preventive conservation and collections care by engaging you with the complexities and challenges of professional practice.

On completion of this one-year course you will possess the specialist knowledge and skills required to provide appropriate strategies for the care, storage, display, transit and environmental management of heritage collections.

During the course you will learn about the physical and chemical characteristics of materials commonly found in collections, preventive conservation policies and procedures, conservation-cleaning processes, environmental management strategies as well as the fundamental chemistry and physics underpinning professional practice. You will also undertake a placement that will allow you to contextualise the theory that you have learnt within professional practice. Personal research is encouraged throughout the course and you are provided with the opportunity to shape assignments in support of its development, which often leads to the focus of the final dissertation.

Northumbria University is the market lead in this fast growing area of conservation practice and provides teaching that is at the forefront of this exciting discipline.

For more information on the part time version of this course, please view this web-page: https://www.northumbria.ac.uk/study-at-northumbria/courses/preventive-conservation-dtdpcz6/

Learn From The Best

The teaching team are members, co-ordinators and directory board members of leading international conservation organisations around the world and have extensive experience in professional practice as well as teaching and learning at a distance.

The teaching team continuously draw on their international networks to identify emerging trends in professional practice. This enables them to ensure that course content remains current and that graduates have the skills and knowledge required by prospective employers.

All staff are research-active and regularly present and publish their work around the world at international peer-reviewed conferences. This places them in a strong position to guide and support you in the publication of your own research after graduation, greatly enhancing your employability.

Teaching And Assessment

This course is delivered in a distance learning format and the none-synchronous delivery provides flexibility as to when, where and at what pace you learn, which is particularly valuable if you do not have English as a first language. The format is invaluable if you do not wish to re-locate but if you wish to continue in employment throughout the programme you are advised to take the part time format.

All learning is student-led. You learn by identifying the area of research that is of interest to you and then develop it through the coursework and assignments using the teaching materials as appropriate. This makes the learning process more engaging, personal and meaningful. The formative and summative assignments and dissertation are designed to help you develop as the critical thinker, reflective practitioner and independent learner required in professional practice.

Module Overview
EF0126 - E.S.A.P. in FADSS Level 7 (Optional, 0 Credits)
VA7017 - Collections Care (Core, 30 Credits)
VA7018 - Conservation Science (Core, 30 Credits)
VA7019 - Conservation Cleaning (Core, 30 Credits)
VA7020 - Work Placed Learning (Core, 30 Credits)
VA7021 - Preventive Conservation Dissertation (Core, 60 Credits)

Learning Environment

Learning materials, course and module handbooks, assessment information, lecture presentation slides, web-links and reading lists are made available via our innovative e-learning platform Blackboard. You can also access student support and other key University systems through your personal online account.

The course content is delivered using smart interactive materials including lectures with voice overs, high quality virtual tours, rotating 3D artefacts with hot spots that can be magnified for examination purposes and audio-visual demonstrations of the processes and procedures used in professional practice. The high quality interactive learning materials have been developed by subject specialists and are available throughout the course so that you can develop and consolidate your knowledge and understanding as often as required. Discussion boards provide regular opportunities for you to discuss academic issues with the other students in your cohort.

You will be fully supported throughout the course by the teaching team who will help you develop your area of personal research, provide weekly feedback on formative course work and provide swift high quality feedback to any concerns or queries that you might have via e mail.

Research-Rich Learning

Research-rich learning is embedded throughout the course and our academics are research-active, publishing cutting-edge work within this specialised field.

The course has a research-based format engendering an enquiring, analytical and creative approach to the challenges of professional practice.

This course provides a large emphasis on both the development of individual research skills and the importance of group work and by the end of your course you will possess the skills required to position yourself as a confident researcher able to identify, deliver and disseminate research that will contribute to professional and enhance your employability.

Give Your Career An Edge

Northumbria University has led in the development of this area of practice and a high percentage of our graduates secure employment within the sector within six months of graduation or earlier.

The work placement will greatly enhance your future career prospects by providing an invaluable opportunity to apply your skills and knowledge within a professional environment. It will allow you to start developing professional networks and help you identify which aspect of professional practice you would most like to pursue.

The high quality learning materials provided throughout your course, teamed with our established record of delivery and international network of contacts places your knowledge and understanding at the forefront of that required by the sector enhancing your employability.

Your Future

On completion of this course you will possess the knowledge and skills required to care for collections and be able to understand, develop and implement appropriate strategies for storage, display, transit and environmental management.

We continue to support your continuous professional development after graduation through our LinkedIn alumni page, which enables us to alert you to potential jobs, conferences and publications.

A range of career options are available to graduates, with many choosing to pursue roles such as preventive conservation officers, environmental managers or collections managers in museums, galleries and heritage organisations.

The number of former graduates working in professional practice within the first six months of graduating is very high and former students work within many high profile organisations around the world including the National Trust, TATE, Fitzwilliam Museum Cambridge, Islamic Arts Museum Malaysia, National Museum Qatar, New Brunswick Museum Canada, National Library Israel, Heritage Conservation Centre Singapore, National Gallery Victoria Australia and the National Archives Norway.

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If you have a general engineering and/or science background, this course will provide you with the additional knowledge and skills required to become a power engineer. Read more
If you have a general engineering and/or science background, this course will provide you with the additional knowledge and skills required to become a power engineer.

If you already have an electrical engineering or electronics background, the course enables you to update your knowledge to include the latest developments in renewable energy (including energy from the environment) and smart grids, making use of modern sensing, communication and signal- processing technologies.

The programme consists of five core taught modules, covering the fundamental aspects of the modern power systems and energy conversion technologies that are core in renewable generation and energy storage. You’ll also select three modules (from a choice of six options) to study ‘non-electrical’ technologies that are crucial to the safe and reliable operation of power and energy systems. Alongside the taught modules, you’ll carry out a supervised research/development project that is relevant to real-world industrial needs.

Course Structure

The MSc degree (totalling 180 credits) comprises:
-Eight taught modules (15 credits each), five core modules and three optional modules (see below)
-A research project worth 60 credits (see below)

Core modules

-Electrical Machines and Drives
-Fuel Cells and Energy Storage
-Operation and Control of Power Systems
-Power Electronic Converters and Devices
-Renewable Energy from the Environment

Optional modules (choose 3)

-ASICs, MEMS and Smart Devices
-Heat Transfer Theory and Design
-Optical Communication Systems
-Signal & Image Processing
-Systems Modelling and Simulation
-Antenna, Propagation and Wireless Communication Theory

Individual project

The individual research project is an in-depth experimental, theoretical or computational investigation of a topic chosen by you in conjunction with an academic supervisor.

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Organisations operate within increasingly unpredictable, competitive, constrained and demanding environments. Information is crucial to their success as it is required for decision making at all levels. Read more

Course Description

Organisations operate within increasingly unpredictable, competitive, constrained and demanding environments. Information is crucial to their success as it is required for decision making at all levels. Consequently there is a need to understand the strategic importance of information and develop agile, effective and secure ways to exploit it to its full potential. To do this, effective information capability management must be developed throughout the organisation so that the right information is available to the right people at the right time in an effective, efficient and secure manner.

An appropriate infrastructure is required to enable effective information capability management to address strategic business needs. This is dependent on joined-up systems of processes, technology and appropriately skilled, competent and motivated people focused on delivering clearly understood business benefit. The Information Capability Management (ICM) MSc has been developed to address these important issues.

Overview

Skilled professionals are needed to enable organisations to realise the strategic benefits that successfully exploiting information can provide. Success in business of all types and in all sectors, both public and private, is dependant on:

•Understanding the value of information as a strategic asset
•Developing agile, effective and efficient systems that make this information available.
•Countering cyber threats with appropriate cyber security.

The internationally recognised Information Capability Management course successfully supports the development of these professionals. Students from Government departments, industry and other organisations within the UK and internationally come together to study and discuss issues and develop skills that will enable solutions now and in the future.

Key goals of the course are to provide students with postgraduate level education in order to:

•Develop in individuals an awareness of the management, user and supplier communities
•Recognise the stakeholder roles, needs and expectations within these communities
•Enable effective communication and a shared understanding between these stakeholders in order to meet capability objectives
•Master the principles and practice that underlie the delivery of effective, efficient and secure systems in various business spaces that exploit information in order to provide strategic benefit

Start date: Full Time: September / Part Time: January

Duration: Full-time MSc - one year, Part-time MSc - up to three years, Full-time PgCert - one year, Part-time PgCert - two years, Full-time PgDip - one year, Part-time PgDip - two years

Course overview

MSc students must complete a taught phase consisting of twelve modules, followed by an individual dissertation in a relevant topic.

PgDip students are required to undertake the same taught phase as the MSc, but without the individual dissertation.

PgCert students must complete the core module (Foundations of Information Systems) together with five other modules.

Modules

Qualifications achieved by completing:
PgCert: Foundations of Information Systems and any five other modules
PgDip: All modules
MSc: All modules and the dissertation.

Core:
- Cyber Security and Information Assurance
- Dissertation
- Emerging Technology Monitoring
- Foundations of Information Systems
- Information Storage and Retrieval
- Methods and Tools for Information Systems Development
- Organisation Development
- Professional Issues
- Programme and Project Management for Information Systems
- Software Engineering (IS)
- Strategic Application of Information Systems
- Systems Architecture
- Data-led Decision Support
- Data Modelling, Storage and Management

Individual Project

The Individual Project is the opportunity for a student to utilise and demonstrate their understanding of the taught phase of the course by applying their learning to a real world problem. It is also an opportunity to develop skills and achieve a greater level of understanding in a specific area or areas of relevance to the course. Students are allocated a supervisor and have access to subject matter experts to support them in the project phase.

Assessment

Spread throughout the programme and includes coursework, group presentations and examinations during the taught phase and for the MSc a research based dissertation.

Career opportunities

Takes you on to further senior career opportunities and to become one of the next generation of senior professionals delivering business benefit through exploitation of information with skills in appropriate areas including business analysis, strategy development and implementation, information assurance, cyber security, organisational development and strategic application of information systems.

For further information

On this course, please visit our course webpage http://www.cranfield.ac.uk/Courses/Masters/Information-Capability-Management

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The global challenges of climate and energy require new technologies for renewable energy sources, methods of energy storage, efficient energy use, new lightweight vehicular structures, techniques for carbon capture and storage and climate engineering. Read more
The global challenges of climate and energy require new technologies for renewable energy sources, methods of energy storage, efficient energy use, new lightweight vehicular structures, techniques for carbon capture and storage and climate engineering. This is a broad-based MSc, designed for graduates who wish to acquire skills in energy and materials science in order to participate in the emerging challenges to meet climate change targets.

Degree information

Students gain an advanced knowledge of materials science as it applies to energy and environmental technologies and research skills including information and literature retrieval, critical interpretation and analysis, and effective communication. They can benefit from modules in chemistry, physics, chemical engineering or mechanical engineering, thus offering future employers a wide-ranging skills base. Graduates will be well qualified to deal with the problems of energy decision-making and the implications for the environment.

Students undertake modules to the value of 180 credits. The programme consists of five core modules (90 credits), two optional modules (15 credits each) and a research project (60 credits). An exit-level only Postgraduate Diploma (120 credits) is available. An exit-level only Postgraduate Certificate (60 credits) is available.

Core modules - students take all of the following, totalling 90 credits, and a 60 credit research dissertation.
-Advanced Topics in Energy Science and Materials
-Microstructural Control in Materials Science
-Energy Systems and Sustainability
-Transferable Skills for Scientists
-Research Project Literature Review

Optional modules - students take 30 credits drawn from the following:
-Climate and Energy
-Materials and Nanomaterials
-Electrical Power Systems and Alternative Power Systems
-Atom and Photon Physics
-Solid State Physics
-Mastering Entrepreneurship

Dissertation/report
All MSc students undertake an independent research project which culminates in a dissertation of approximately 10,000 words, an oral presentation and a viva voce examination (60 credits).

Teaching and learning
The programme is delivered through a combination of lectures, seminars, tutorials, laboratory classes and research supervision. Assessment is through unseen written examination and coursework. The literature project is assessed by written dissertation and oral presentation, and the research project is assessed by a written report, an oral presentation and a viva voce examination.

Careers

The UK has committed to 80% reduction in CO2 emissions on a 1990 baseline by 2050. CERES, the organisation that represents the largest institutional investors would like to see 90% reduction by 2050. National Systems of Innovation (NSI), which includes the universities, research centres and government departments working in conjunction with industry, will need to apprehend new opportunities and change direction, diverting personnel to energy and climate issues in response to changing markets and legislation. This MSc will contribute to the supply of personnel needed for the era of sustainability.

Top career destinations for this degree:
-Process Innovation Executive, Samsung Electronics UK
-Chemical Engineer, Jing Eong Fang
-Research Intern, CECP
-PhD Nanomaterials, University of Oxford
-PhD Sugar Chemistry, Monash University

Why study this degree at UCL?

This programme is designed for graduates from a wide range of science and engineering backgrounds who wish to broaden their knowledge and skills into materials science with an emphasis on the energy and climate change issues that will drive markets over the next century. It delivers courses from five departments across three faculties depending on options and includes a self-managed research project which is intended to introduce the challenges of original scientific research in a supportive environment.

Research activities span the whole spectrum of energy-related research from the development of batteries and fuel cells to the prediction of the structure of new water-splitting catalytic materials.

Students develop experience in scientific method, techniques for reporting science and in the many generic skills required for a future career.

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

About the course

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

Our graduates are in demand

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

Real-world applications

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

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

How we teach

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

Accreditation

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

First-class facilities

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

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

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

Electrical Machines and Drives

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

Communications

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

Core modules

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

Examples of optional modules

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

Teaching and assessment

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

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

About the course

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

Our graduates are in demand

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

Real-world applications

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

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

How we teach

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

Accreditation

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

First-class facilities

Semiconductor Materials and Devices

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

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

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

Electrical Machines and Drives

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

Communications

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

Core modules

Major Research Project.

Examples of optional modules

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

Teaching and assessment

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

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The MSc in Data Science & Analytics, jointly offered by the Department of Computer Science and the Department of Statistics, provides an education in the key principles of this rapidly expanding area. Read more
The MSc in Data Science & Analytics, jointly offered by the Department of Computer Science and the Department of Statistics, provides an education in the key principles of this rapidly expanding area. The combination of sophisticated computing and statistics modules will develop skills in database management, programming, summarisation, modelling and interpretation of data. The programme provides graduates with an opportunity, through development of a research project, to investigate the more applied elements of the disciplines.

Visit the website: http://www.ucc.ie/en/ckr49/

Course Details

The MSc in Data Science and Analytics is a significant collaboration between the Departments of Computer Science and Statistics; designed to provide graduates with the skills and knowledge required to help companies and public bodies deal with ever increasing and complex data. The programme emphasises the application of Computer Science and Statistics methodologies helping transform data into useful information that can support decision making.

Format

A typical 5 credit module:
• 2 lecture hours per week
• 1–2 hours of practicals per week
• Outside these regular hours students are required to study independently by reading and by working in the laboratories and on exercises.

Structure

Students must attain 90 credits through a combination of:

- Core Modules (30 credits)
- Elective Modules (30 credits)
- Dissertation (30 credits)

Part 1 (60 credits)

- Core Modules (30 credits) -

CS6405 Data Mining (5 credits) - Dr. Marc Van Dongen
ST6030 Foundations of Statistical Data Analytics (10 credits)
ST6033 Generalised Linear Modelling Techniques (5 credits)

- Database Modules -

Students who have adequate database experience take:

CS6408 Database Technology (5 credits) - Mr. Humphrey Sorensen
CS6409 Information Storage and Retrieval (5 credits) - Mr. Humphrey Sorensen

- Students who have not studied databases take:

CS6503 Introduction to Relational Databases (5 credits)
CS6505 Database Design and Administration (5 credits)

Elective Modules (30 credits)

Students must take at least 10 credits of CS (Computer Science) modules and at least 10 credits of ST (Statistics) modules from those listed below:

CS6322 Optimisation (5 credits) - Dr. Steve Prestwich
CS6323 Analysis of Networks and Complex Systems (5 credits) - Prof. Gregory Provan
CS6509 Internet Computing for Data Science (5 credits)
ST6032 Stochastic Modelling Techniques (5 credits)
ST6034 Multivariate Methods for Data Analysis (10 credits)
ST6035 Operations Research (5 credits)
ST6036 Stochastic Decision Science (5 credits)

- Programming Modules -

Students who have adequate programming experience take:

CS6406 Large-Scale Application Development and Integration l (5 credits) - Professor Gregory Provan
CS4607 Large-Scale Application Development and Integration ll (5 credits) - Professor Gregory Provan

- Students who have not studied programming take:

CS6506 Programming in Python (5 credits)
CS6507 Programme in Python with Data Science and Applications (5 credits) - Dr. Kieran Herley

Part 2 (30 credits)

Students select one of the following modules:

CS6500 Dissertation in Data Analytics (30 credits)
ST6090 Dissertation in Data Analytics (30 credits)

Assessment

Full details and regulations governing Examinations for each programme will be contained in the Marks and Standards 2015 Book and for each module in the Book of Modules 2015/2016 - http://www.ucc.ie/modules/

Postgraduate Diploma in Data Science and Analytics

Students who pass each of the taught modules may opt to exit the programme and be conferred with a Postgraduate Diploma in Data Science and Analytics.

Careers

This programme aims to prepare students to manage, analyse and interpret large heterogeneous data sources. Graduates will design, compare and select appropriate data analytic techniques, using software tools for data storage/management and analysis, machine learning, as well as probabilistic and statistical methods. Such abilities are at the core of companies that constantly face the need to deal with large data sets.

Companies currently seeking graduates with data analytics skills include: firms specialising in analytics, financial services and consulting, or governmental agencies.

Companies actively recruiting Computer Science graduates in 2014-15 include:

Accenture, Aer Lingus, Amazon, Apple, Bank of America Merrill Lynch, Bank of Ireland, BT, Cisco, CiTi-Technology, Cloudreach, Dell, Digital Turbine Asia Pacific, EMC, Enterprise Ireland, Ericsson, First Derivatives, Guidewire, IBM, Intel, Open Text, Paddy Power, Pilz, PWC, SAP Galway Transverse Technologies, Trend Micro, Uniwink, Version 1 (Software).

How to apply: http://www.ucc.ie/en/study/postgrad/how/

Funding and Scholarships

Information regarding funding and available scholarships can be found here: https://www.ucc.ie/en/cblgradschool/current/fundingandfinance/fundingscholarships/

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