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Masters Degrees (Automatic Control)

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This programme will not have a 2016 intake as the content is being extensively improved. The programme aims to offer a rational, flexibly structured. Read more

NOTE

This programme will not have a 2016 intake as the content is being extensively improved.

OVERVIEW

The programme aims to offer a rational, flexibly structured
and coherent postgraduate study in Automatic Control. While
providing advanced general knowledge in Electronic Engineering, the programme is specifically focussed on nonlinear control principles, measurement instrumentation, simulations and implementation of feedback control.
The programme is designed to provide specific skills for individuals who wish to become a control engineer in manufacturing or research and development in industry sectors, or to pursue a PhD in control engineering.

With a track record of 20 years, the research group Control & Intelligent Control Systems Engineering at the University of Hull has an international reputation for its initiatives in the field of fault diagnostics of dynamic systems. This expertise along with its staff’s teaching experience in control engineering supports the masters programme.

OBJECTIVES

The course will provide students with:
• advanced knowledge of control principles including
multivariable feedback control and nonlinear control
systems,
• essential knowledge of control systems configuration,
algorithm design and evaluation,
• a general knowledge of advanced computer simulation
and measurement instrumentation,
• skills in the software and hardware implementation of
control the latest computer modelling and simulation
techniques,
• research experience in control applications in the
engineering field,
• experience of undertaking a significant relevant
research project

SUBJECTS COVERED

• Multivariable feedback control
• Robotic manipulator control
• Machine vision
• Applied Optoelectronics
• Time Signal Processing and Integrated Circuit Design
• Low Power/Voltage Design and VHDL
• Advanced Digital Systems Design
• Microwave Devices, Techniques and Measurements
• Communication Systems
• Intellectual property rights
• Research skills and project planning

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If you wish to embark on an exciting career in the area of control systems and engineering or are a practising engineer who wishes to update their skills then this is the course for you. Read more
If you wish to embark on an exciting career in the area of control systems and engineering or are a practising engineer who wishes to update their skills then this is the course for you.

This is a challenging course which covers all the major aspects of automatic control systems engineering.

WHY CHOOSE THIS COURSE?

This course covers all the major aspects of automatic control systems engineering, with modules ranging from classical control system design to optimal, adaptive and intelligent control systems, including an introduction to artificial neural networks and evolutionary computing.

This Course has been awarded accreditations from the IET and InstMC.

WHAT WILL I LEARN?

All students study Seven fundamental modules which serve to underpin the remainder of the course:
-Maths & Computing for Control
-Linear Control Engineering
-Digital Computer Control Systems
-Non-Linear Control engineering
-System Identification, Parameter Estimation & Filtering
-Self-Tuning and Adaptive Control
-Control Systems Engineering Project

The remaining Option Topics on the course are:
-Digital Computer Control Systems;
-Simulation of Systems
-Data Acquisition and Embedded Control
-Signal and Image Processing
-Artificial Intelligence for Control
-Single Independent Study

(Students are required to select from the modules above to complete a total of 30 credits.)

In addition, the masters project can be tailored to suit the interests of each individual, and have included in the past: Adaptive model based control of a hot steel rolling mill; Comparison of rule-based and model based control systems; Identification of diesel engine characteristics from operating records and Development of a fuzzy logic gas engine speed controller.

HOW WILL THIS COURSE ENHANCE MY CAREER PROSPECTS?

On completion of this course you can expect to pursue a career in the area of control and systems engineering.

The course also provides the necessary groundwork for a career in research in academia or another such research organisation, including our own Control Theory and Applications Centre (CTAC) and Applied Mathematics Research Group (AMRC).

GLOBAL LEADERS PROGRAMME

To prepare students for the challenges of the global employment market and to strengthen and develop their broader personal and professional skills Coventry University has developed a unique Global Leaders Programme.

The objectives of the programme, in which postgraduate and eligible undergraduate students can participate, is to provide practical career workshops and enable participants to experience different business cultures.

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The Master of Science in Accounting, Audit & Control is designed for students wishing to achieve long-term career success, based on a solid foundation in financial reporting and analysis; in management accounting and decision-making; and financial advisory services. Read more
The Master of Science in Accounting, Audit & Control is designed for students wishing to achieve long-term career success, based on a solid foundation in financial reporting and analysis; in management accounting and decision-making; and financial advisory services.

Master of Science in Accounting, Audit & Control provides students with an understanding of modern financial reporting functions from a technical and institutional point of view enabling graduates to work in a wide variety of industries.

Graduates benefit from the built-in fast-track preparation for admission to global professional accountancy bodies (e.g. exemptions towards the ACCA Professional Examinations, alignment with the CIMA’s Masters Gateway and coverage of a significant part of the IMA’s Body of Knowledge).

Accredited with the French National Association of Grandes Ecoles (La Conférence des Grandes Ecoles).

Program Advantages:
- Comprehensive accounting foundation combined with tailor-made elective course options
- Professional accountancy body preparations and exam exemptions
- A blend of theory and practice delivered by experts in the field

Career Opportunities:
- Financial Controller
- Finance Director
- Financial Analyst
- Audit and Assurance Partner
- Management Accountant
- Management consultancy
- Advisory positions
- Tax Consultant

Program

MSc in Accounting, Audit & Control contains a wide range of courses on fundamental and advanced issues in financial reporting and management control.

The program is designed to equip students with a solid foundation in financial reporting and analysis as well as management accounting and decision-making.

The MSc in Accounting, Audit & Control is aligned with prerequisites of international professional accountancy institutes (e.g., ACCA, CIMA and IMA) and shapes the students’ understanding of contemporary financial reporting and advisory functions.

Curriculum -

Students on the IÉSEG MSc in Accounting, Audit & Control course will benefit from the program’s dedicated faculty which balance relevant academic and business experiences. The curriculum features a series of elective courses allowing individual students to specialize in different areas within the domain of accounting, audit & control.

Admission & fees

The choice to study abroad is not only an academic decision, but also a financial one. Students need to be aware of the various cost involved in pursuing a master’s at IÉSEG.

Application process -

Admission to MSc in Accounting, Audit & Control is based on students’ online application available at https://application.ieseg.fr/ and the examination of the required documents. Admission is offered on an ongoing basis to qualified students. Decision release date: from Mid-October 2016.

Application deadlines:
May 26th 2017

Tuition 2017-2018:
€ 15,000 for domestic and international students.
International merit-based scholarships are available.

Funding and scholarship -

IÉSEG has a merit-based International Scholarship Program with a tuition waiver of 15 to 50% per year. Selection is based on the applicant’s previous academic performance and overall application portfolio.

The scholarship application is automatic; students do not need to apply separately.

All international students are encouraged to check with Campus France and their own government to see if there are any scholarships available. For American students please check with Sallie Mae for private loan options.

Testimonials

"If you’re thinking of pursuing an MSc in Accounting in France, IÉSEG is definitely one to apply for. The program is tailored to comply with the prerequisites of international accounting bodies, ensuring that you make a smooth transition to your professional life. The application process is very easy and quick, and the admissions staff is more than happy to help you out if you have any problems."

Jai PILLAI, Australia, MACC 2015

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The graduate in Automation and Control Engineering is an expert who can actively participate and take the lead in the executive design and development of products and systems. Read more

Mission and goals

The graduate in Automation and Control Engineering is an expert who can actively participate and take the lead in the executive design and development of products and systems. She/he may take on full responsibility for designing, installing, testing and maintaining complex machines and systems. The goal of the Automation and Control Engineering programme is to provide the graduate with a strong background in fundamental scientific disciplines, such as mathematics and physics, in classical engineering fields, such as thermodynamics, mechanics, electric drives, automatic control, and in the disciplines of the information and telecommunication technology, like computer science, electronics, communication networks. Thanks to the interdisciplinary nature of her/his background, the graduate has all the necessary skills to design or manage systems resulting from the integration of highly diverse components and technologies. This flexibility both in the attitude and in the competences is a significant asset of the Automation and Control Engineer, in view of the large variety of possible applications, of the continuous and rapid evolution of the technologies, as well as of the dynamics of the job market.

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

Career opportunities

Automation and Control Engineering offers challenging and fulfilling careers for engineering technologists in design, research and development, and technical support, in many fields where automation and control are of paramount importance, such as: (a) industry producing manufacturing systems, automatic machines, robotic systems, mechatronic systems; (b) process industry (pulp and paper, energy production and conversion, chemical and petrochemical industry, etc.); (c) transportation systems (ground, marine and aerospace), concerning both the development of vehicles (cars, boats, helicopters, aircrafts, satellites), and the design, management and control of infrastructures; (d) transportation and distribution networks; (e) food industry; (f) electrical appliances and domotics; (g) environmental resources.

Typical companies where the automation and control engineers may operate include those producing and selling automation systems (both hardware and software); companies that use automated production plants or that manage highly complex services; engineering and consulting firms that design and project complex, economically challenging and technologically advanced plants and systems.

Presentation

See http://www.polinternational.polimi.it/uploads/media/Automation_Engineering.pdf
This programme aims at providing the graduates with sound engineering skills to design, develop, implement and manage automation systems for manufacturing plants, industrial processes, mechatronic devices, distribution networks and environmental systems. Graduates have a strong background in the classical engineering fields and in the information and telecommunication technology. The interdisciplinary nature of this programme provides the graduates with all the skills to design/manage systems resulting from the integration of highly diverse technologies.
Graduates will have wide employment opportunities in many fields: industry producing manufacturing systems, automatic machines, robotic systems, mechatronic systems, process industry, transportation systems, transportation and distribution networks, food industry, electrical appliances, home automation and environmental resources.
The programme is taught in English.

Subjects

The mandatory courses are:
- Advanced and multivariable control
- Automation and control laboratory
- Computer aided manufacturing
- Dynamics of electrical machines and drives
- Dynamics of mechanical systems
- Model identification and data analysis
- Software engineering

Among the optional courses:
- Automation and control in vehicles
- Automation of energy systems
- Control of industrial robots
- Production systems control
- Safety in automation systems
- Thesis and final exam

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

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

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

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The University Master's Degree in Industrial Engineering (MEI) qualifies graduates to work as industrial engineers. The programme is divided into 120 ECTS credits. Read more
The University Master's Degree in Industrial Engineering (MEI) qualifies graduates to work as industrial engineers. The programme is divided into 120 ECTS credits. Industrial engineering is a profession with a long tradition and considerable prestige in Spain. The ability of graduates to integrate technology and to design, maintain and manage industrial processes means that they are in high demand on the labour market.

Student Profile

This master's degree is a continuation of the degrees in the field of industrial engineering, specifically the bachelor's degrees in industrial technology engineering, electrical engineering, industrial electronics and automatic control, mechanical engineering, chemical engineering and textile engineering.

It is also designed for holders of diplomas in industrial engineering and other engineering qualifications.

The personal and academic characteristics that are considered appropriate for students who want to take this master's degree are the following:
-A technical education and a desire for a career in the field of industry.
-Knowledge of basic materials and industrial technologies.
-The ability to analyse and assess the social and environmental impact of technical solutions.

Career Opportunities

The University Master's Degree in Industrial Engineering enables for professional practice in Spain. Graduates can find work in the following areas:
-Self-employment
-Management of production plants
-Industrial organisation
-Maintenance management
-Resource management
-Research and development
-Teaching

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Targeted action. there is more to it than you think. How do you pick out your own glass of beer out of all the other glasses on the bar? How do you find your way in a building? How do you walk from one room to the other - and how do you do that with your eyes closed?. Read more

Master's specialisation in Perception, Action and Control

Targeted action: there is more to it than you think
How do you pick out your own glass of beer out of all the other glasses on the bar? How do you find your way in a building? How do you walk from one room to the other - and how do you do that with your eyes closed?
How do you perceive colour under constantly changing lighting conditions? How does a tennis player prepare himself to return a ball which yet has to be played? And what role do eye and head movements play in this? How are we able to write?
Catching a ball, grabbing a cup, writing down a sentence: these are all targeted actions that you often perform without thinking about them. Performing perceptuomotor tasks as a team such as in sports, understanding the actions of others, joint action in collaborative and competitive contexts: these are examples of hot topics in social neurocognition in which Nijmegen scientists are highly interested.
To patients who suffered a brain haemorrhage automatic actions come not so naturally any more. They find it extremely difficult to perform them. Why is that? Which neurocognitive processes play a role in these actions? That is what researchers who study perception and action want to discover.

See the website http://www.ru.nl/masters/cns/perception

General requirements:

- Bachelor's degree
The graduation date of the last attained BA/BSc degree relevant for this programme must be within five years of applying to the programme.

- English skills
The Cognitive Neuroscience Master's programme (MSc CNS) is an English programme: all courses and examinations are taught in English. For the general language requirements of the Radboud University click here. Foreign students please note that the MSc CNS programme requires the following minimum scores: TOEFL: 600 (paper-based test), 250 (computer-based test), 100 (internet-based test); IELTS 7.0 or higher.

- Mathematics & Physics
Students who did not follow physics in their high school curriculum and/or who have not been trained in mathematics at level B (including concepts such as matrix algebra, differentiation, integration, complex numbers), are advised before the start of the programme to work on the assignment in Chapters 1, 2, 7, 8 and 11 (three chapters on physics and two on mathematics) of R.K. Hobbie: "Intermediate Physics for Medicine and Biology", Springer Verlag, New York, 1997; third edition, ISBN 1-56396-458-9).

Career prospects

If you have successfully completed the specialisation Perception, Action and Control you will have ample experience in current research and analysis techniques in perception, three-dimensional motor research, psychophysiological studies, neuroimaging and electromyographical studies. You will also be able to apply formal theories on and models of perceptive functions, sensomotor functions, and complex actions in your research.
With this educational background you may find a position with one of the industrial or non-industrial research institutes in the Netherlands or abroad (e.g. traffic research, man-machine interaction, etc.). Also in health care there is an increasing demand for cognitive neuroscientists, for example, in rehabilitation centres.

Our approach to this field

Perception, Action & Control is a central research area within different faculties of Radboud University. It is aimed at the three basic components of current Cognitive Neuroscience: modelling (e.g. in physics), designing and conducting behavioural studies (e.g. in psychology) and measuring the neurobiological foundations of behaviour. The various research groups of the Donders Institute for Brain, Cognition and Behaviour that study these processes use a wide range of modern research facilities which enables them to provide natural stimuli and measure complex everyday behaviour. The close cooperation between the various disciplines also characterises the content of the courses in this specialisation.

Our research in this field

Researchers working on Perception Action and Control study sensorimotor mechanisms, their cognitive and social components, their clinical implications, and their relevance for robotics.

The PAC theme is closely integrated with the RadboudUMC themes Disorders of movementand Stress-related disorderslead by Bas Bloem and Aart Schene respectively. An overview of RadboudUMC themes can be found here https://www.radboudumc.nl/Research/Themes/Pages/default.aspx .

Research methods include theoretical analysis, psychophysical and behavioural studies, neurophysiological techniques, neuroimaging, clinical and pharmacological interventions, developmental and genetic approaches.

See the website http://www.ru.nl/masters/cns/perception

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The Master of Science in Embedded Computing Systems is jointly offered by the Institute of Communication, Information and Perception Technologies (TeCIP) of Sant’Anna School of Advanced Studies and the Department of Information Engineering of the University of Pisa. Read more
The Master of Science in Embedded Computing Systems is jointly offered by the Institute of Communication, Information and Perception Technologies (TeCIP) of Sant’Anna School of Advanced Studies and the Department of Information Engineering of the University of Pisa. It is aimed at providing the basic knowledge for approaching complex software design in embedded computing systems using the most modern design methodologies, and integrating specific knowledge in various research areas, including automatic control, signal acquisition and processing, real-time computing, sensors and actuators interfacing, software engineering, formal methods for software verification, distributed systems, computer architectures, and digital electronics.

The organization of teaching courses and laboratories will allow each student to achieve the most suitable and effective working environment. In order to achieve the described goals for high qualification and working environment, the maximum number of admitted students per year is 40.

People graduating in Embedded Computing Systems will have a deep knowledge in the following fields:
• real-time computing systems, scheduling algorithms and resource management;
• microprocessor, multiprocessor and multi-core architectures;
• distributed systems and sensor networks;
• paradigms, models and tools for software design.

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This programme is aimed at anyone interested in learning more about the design and operation of low energy buildings with the added attraction of three modules dedicated to computer modelling of building performance – an essential skill for anyone wishing to work in today’s rapidly changing world of building engineering consultancy. Read more
This programme is aimed at anyone interested in learning more about the design and operation of low energy buildings with the added attraction of three modules dedicated to computer modelling of building performance – an essential skill for anyone wishing to work in today’s rapidly changing world of building engineering consultancy.

Modules are taught by world-leading experts in the field who have designed some of the world’s most innovative low energy buildings. These design experiences provide unique case study material which students find exciting and invaluable for their own research and design work.

The programme is accredited for further learning for CEng and professional membership by CIBSE and the Energy Institute and benefits from its links with the Royal Academy of Engineering Centre of Excellence in Sustainable Building Design.

The course attracts students from all over the world, including countries such as Greece, Iran, China, France, Germany and Colombia. This is attractive to potential employers who often have international offices around the world.

Key Facts

- An outstanding place to study. The School of Civil and Building Engineering is ranked 2nd in the UK for Building in the Times Good University Guide 2015

- Research-led teaching from international experts. 75% of the School’s research was rated as world-leading or internationally excellent in the latest Government Research Excellence Framework.

- The programme is accredited by the two main institutions representing energy and buildings – the Chartered Institution of Building Services Engineers and the Energy Institute. On successful completion of the course, students are deemed to meet the education requirements for both institutions and their applications can be endorsed by course tutors.

See the website http://www.lboro.ac.uk/study/postgraduate/programmes/departments/civil/low-carbon-building-design/

Programme modules

- Building Energy Consumption [70% exam, 10 credits]
The aim of this module is for the student to understand the impact that climate, people, equipment selection and design have on energy consumption on a range of building sizes from domestic to large commercial.

- Renewable Energy and Low Carbon Technologies [70% exam, 15 credits]
The aims of this module are for the student to understand the principles of renewable energy and low carbon technologies and their integration into buildings, and to be given a perspective on the potential benefits and applications of these technologies.

- Building Control & Commissioning [70% exam, 10 credits]
The aims of this module are for the student to understand the application of automatic control in energy monitoring and commissioning and to examine the control problems in buildings and develop control strategies that will improve thermal comfort and building energy use.

- Concept Design [0% exam, 15 credits]
The aims of this module are for the student to be introduced to the process within which buildings are conceived and designed by undertaking the architecture design of a major building using multi-disciplinary input. Students will develop team skills through working in design groups to generate schematic concepts before developing the best. They will apply previous knowledge of building services and low carbon design in the selection process and carry out performance analysis. Students will work with 3D architectural and 3D mechanical, electrical and plumbing (MEP) systems within BIM software to further develop their concepts.

- Low Carbon Building Design [50% exam, 15 credits]
The module aims to introduce the principles of low and zero carbon building with special attention to the process of design and decision-making.

- Advanced Thermal Modelling [50% exam, 15 credits]
The aims of this module are for the student to understand the principles of building thermal modelling and HVAC plant simulation, and be given a perspective on the applications of these techniques to the design process.

- Advanced Airflow Modelling [50% exam, 15 credits]
The aims of this module are for the student to understand the principles of building airflow and ventilation modelling with respect to comfort and energy efficiency, and be given a perspective on the applications of these techniques to the design process.

- Advanced Lighting Modelling [50% exam, 15 credits]
The aims of this module are for the student to understand the principles of lighting modelling in buildings with respect to comfort and energy efficiency, and be given a perspective on the application of these techniques to the design process.

- Research Project [0% exam, 60 credits]
The aim of this module is to provide the student with experience of the process and methodology of research by defining and studying (on an individual basis) a complex problem in a specialised area relating to Building Energy

- Research Methods in Building Performance [0% exam, 10 credits]
The aims of this module are for the student to become familiar with and comprehend the wide range of research methods and skills needed to investigate, understand and communicate building performance.

Facilities

All masters students have access to a wide range of building simulation codes which include commercial software, as well as bespoke codes developed in-house. Students can run these codes on their personal laptops or access any one of our computer laboratories, including access to our recently commissioned 2000-node high performance computer cluster.

One of our key strengths at Loughborough is our experimental facilities which enable us to validate computer models. Our masters students have access to a vast range of experimental facilities, some of which are used during the taught modules and all of which are available for use by students during their research dissertations.

These include: a fully controllable environmental chamber; sophisticated thermal and breathing manikins; an indoor solar simulator; a 'darkroom' facility to carry out optical and high dynamic range measurements; and full-scale houses for pressure testing and studying innovative heating and control strategies. A recent investment of £360k was made to purchase an extensive array of monitoring and measuring equipment for use during field studies.

How you will learn

You will learn through a carefully balanced combination of lectures, in-class guided workshops, hands-on computer modelling, field measurements and independent research. Students have access to a wide range of air flow, thermal and daylight modelling software as well as extensive laboratory facilities. Following nine taught modules, students pursue a research dissertation of their choice which draws on the skills developed during the taught modules.

Students are assessed by a combination of traditional written exams, coursework and assignments. This split is typically 70/30 (exam/coursework) or 50/50, although some modules, such as research methods and concept design are assessed entirely based on coursework which comprises individual presentations and group work.

Careers and further study

Previous students have gone on to work for leading consulting engineering companies such as Arup, Pick Everad, Hoare Lea, Hulley and Kirkwood and SE Controls. Some of these companies offer work placements for students to undertake their research dissertations. Many visit the university to deliver lectures to our MSc students providing ideal opportunities for students to discuss employment opportunities.

Accreditation

The programme is accredited for further learning for CEng and professional membership by the CIBSE and Energy Institute.
The 'SE Controls prize for best overall performance' is awarded to the student graduating from this course with the highest overall mark. This presentation is made on graduation day.

Scholarships

The University offers over 100 scholarships each year to new self-financing full-time international students who are permanently resident in a county outside the European Union. These Scholarships are to the value of 25% of the programme tuition fee and that value will be credited to the student’s tuition fee account.
You can apply for a scholarship once you have received an offer for a place on this programme.

Why choose civil engineering at Loughborough?

As one of four Royal Academy of Engineering designated Centres of Excellence in Sustainable Building Design, the School of Civil and Building Engineering is one of the largest of its type in the UK and holds together a thriving community of over 60 academic staff, 40 technical and clerical support staff and over 240 active researchers that include Fellows, Associates, Assistants, Engineers and Doctoral Students.

Our world-class teaching and research are integrated to support the technical and commercial needs of both industry and society. A key part of our ethos is our extensive links with industry resulting in our graduates being extremely sought after by industry and commerce world-wide,

- Postgraduate programmes
The School offers a focussed suite of post graduate programmes aligned to meet the needs of industry and fully accredited by the relevant professional institutions. Consequently, our record of graduate employment is second to none. Our programmes also have a long track record of delivering high quality, research-led education. Indeed, some of our programmes have been responding to the needs of industry and producing high quality graduates for over 40 years.

Currently, our suite of Masters programmes seeks to draw upon our cutting edge research and broad base knowledge of within the areas of contemporary construction management, project management, infrastructure management, building engineering, building modelling, building energy demand and waste and water engineering. The programmes are designed to respond to contemporary issues in the field such as sustainable construction, low carbon building, low energy services, project complexity, socio-technical systems and socio-economic concerns.

- Research
Drawing from our excellent record in attracting research funds (currently standing at over £19M), the focal point of the School is innovative, industry-relevant research. This continues to nurture and refresh our long history of working closely with industrial partners on novel collaborative research and informs our ongoing innovative teaching and extensive enterprise activities. This is further complemented by our outstanding record of doctoral supervision which has provided, on average, a PhD graduate from the School every two weeks.

- Career Prospects
Independent surveys continue to show that industry has the highest regard for our graduates. Over 90% were in employment and/or further study six months after graduating. Recent independent surveys of major employers have also consistently rated the School at the top nationally for civil engineering and construction graduates.

Find out how to apply here http://www.lboro.ac.uk/study/postgraduate/programmes/departments/civil/low-carbon-building-design/

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This programme is aimed at graduates of building services engineering and other science and engineering disciplines who wish to extend their technical expertise in the field of building services engineering. Read more
This programme is aimed at graduates of building services engineering and other science and engineering disciplines who wish to extend their technical expertise in the field of building services engineering. With energy consumption within the design and operation of buildings becoming an ever increasingly important factor this programme is designed to combine building services engineering knowledge with specific energy considerations in their design.

The programme is accredited for further learning for CEng and professional membership by the Energy Institute and CIBSE. CIBSE has praised the programme as ‘one of the leading MSc courses of its kind in the UK’.

Areas studied include low energy building design, designing for suitable indoor air quality and thermal comfort, state-of-the-art control systems, and the design of building heating, ventilating, and air conditioning systems.

The course attracts students from all over the world, including countries such as Greece, Iran, China, France, Germany and Colombia. This is attractive to potential employers who often have international offices around the world.

Key Facts

- An outstanding place to study. The School of Civil and Building Engineering is ranked 2nd in the UK for Building in the Times Good University Guide 2015
- Research-led teaching from international experts. 75% of the School’s research was rated as world-leading or internationally excellent in the latest Government Research Excellence Framework.
- The programme is accredited by the two main institutions representing energy and buildings – the Chartered Institution of Building Services Engineers and the Energy Institute. On successful completion of the course, students are deemed to meet the education requirements for both institutions and their applications can be endorsed by course tutors.

See the website http://www.lboro.ac.uk/study/postgraduate/programmes/departments/civil/low-energy-building-services/

Programme modules

Compulsory Modules:
- Thermodynamics, Heat Transfer & Fluid Flow [70% exam, 10 credits]
The aim of this module is to provide students from related engineering backgrounds with an understanding of the fundamentals of heat transfer, fluid flow and thermodynamics for application to buildings and their engineering systems.

- Thermal Comfort & Indoor Air Quality [70% exam, 15 credits]
The aim of this module is for the student to understand the principles and practice involved in the design of indoor environments, with respect to occupant thermal comfort and air quality.

- Building Thermal Loads & Systems [70% exam, 15 credits]
The aim of this module is for the student to understand the principles of building thermal load analysis and required systems for medium to large buildings.

- Building Energy Supply Systems [70% exam, 15 credits]
The aim of this module is for the student to be provided with a practical foundation in system design and analysis, by developing the students' understanding of thermal plant in buildings including air conditioning systems and systems for heat recovery.

- Building Control & Commissioning [70% exam, 10 credits]
The aims of this module are for the student to understand the application of automatic control in energy monitoring and commissioning and to examine the control problems in buildings and develop control strategies that will improve thermal comfort and building energy use.

- Concept Design [0% exam, 15 credits]
The aims of this module are for the student to be introduced to the process within which buildings are conceived and designed by undertaking the architecture design of a major building using multi-disciplinary input. Students will develop team skills through working in design groups to generate schematic concepts before developing the best. They will apply previous knowledge of building services and low carbon design in the selection process and carry out performance analysis. Students will work with 3D architectural and 3D mechanical, electrical and plumbing (MEP) systems within BIM software to further develop their concepts.

- Low Carbon Building Design [50% exam, 15 credits]
The module aims to introduce the principles of low and zero carbon building with special attention to the process of design and decision-making.

- Advanced Thermal Modelling [50% exam, 15 credits]
The aims of this module are for the student to understand the principles of building thermal modelling and HVAC plant simulation, and be given a perspective on the applications of these techniques to the design process.

- Research Project [0% exam, 60 credits]
The aim of this module is to provide the student with experience of the process and methodology of research by defining and studying (on an individual basis) a complex problem in a specialised area relating to Building Energy

- Research Methods in Building Performance [0% exam, 10 credits]
The aims of this module are for the student to become familiar with and comprehend the wide range of research methods and skills needed to investigate, understand and communicate building performance.

Facilities

All masters students have access to a wide range of building simulation codes which include commercial software, as well as bespoke codes developed in-house. Students can run these codes on their personal laptops or access any one of our computer laboratories, including access to our recently commissioned 2000-node high performance computer cluster.

One of our key strengths at Loughborough is our experimental facilities which enable us to validate computer models. Our masters students have access to a vast range of experimental facilities, some of which are used during the taught modules and all of which are available for use by students during their research dissertations.

These include: a fully controllable environmental chamber; sophisticated thermal and breathing manikins; an indoor solar simulator; a 'darkroom' facility to carry out optical and high dynamic range measurements; and full-scale houses for pressure testing and studying innovative heating and control strategies. A recent investment of £360k was made to purchase an extensive array of monitoring and measuring equipment for use during field studies.

How you will learn

You will learn through a carefully balanced combination of lectures, in-class guided workshops, hands-on computer modelling, field measurements and independent research. Students have access to a wide range of air flow and thermal modelling software as wells as extensive laboratory facilities. Following nine taught modules, students pursue a research dissertation of their choice which draws on the skills developed during the taught modules.

Students are assessed by a combination of traditional written exams, coursework and assignments. This split is typically 70/30 (exam/coursework) or 50/50, although some modules, such as research methods and concept design are assessed entirely based on coursework which comprises individual presentations and group work.

Careers and further study

Previous students have gone on to work for leading consulting engineering companies such as Arup, Pick Everad, Hoare Lea, Cundall, Foster & Partners, and Atkins. Some of these companies offer work placements for students to undertake their research dissertations. Many visit the university to deliver lectures to our MSc students providing ideal opportunities for students to discuss employment opportunities.

Scholarships

The University offers over 100 scholarships each year to new self-financing full-time international students who are permanently resident in a county outside the European Union. These Scholarships are to the value of 25% of the programme tuition fee and that value will be credited to the student’s tuition fee account.
You can apply for a scholarship once you have received an offer for a place on this programme.

Why choose civil engineering at Loughborough?

As one of four Royal Academy of Engineering designated Centres of Excellence in Sustainable Building Design, the School of Civil and Building Engineering is one of the largest of its type in the UK and holds together a thriving community of over 60 academic staff, 40 technical and clerical support staff and over 240 active researchers that include Fellows, Associates, Assistants, Engineers and Doctoral Students.

Our world-class teaching and research are integrated to support the technical and commercial needs of both industry and society. A key part of our ethos is our extensive links with industry resulting in our graduates being extremely sought after by industry and commerce world-wide,

- Postgraduate programmes
The School offers a focussed suite of post graduate programmes aligned to meet the needs of industry and fully accredited by the relevant professional institutions. Consequently, our record of graduate employment is second to none. Our programmes also have a long track record of delivering high quality, research-led education. Indeed, some of our programmes have been responding to the needs of industry and producing high quality graduates for over 40 years.

Currently, our suite of Masters programmes seeks to draw upon our cutting edge research and broad base knowledge of within the areas of contemporary construction management, project management, infrastructure management, building engineering, building modelling, building energy demand and waste and water engineering. The programmes are designed to respond to contemporary issues in the field such as sustainable construction, low carbon building, low energy services, project complexity, socio-technical systems and socio-economic concerns.

- Research
Drawing from our excellent record in attracting research funds (currently standing at over £19M), the focal point of the School is innovative, industry-relevant research. This continues to nurture and refresh our long history of working closely with industrial partners on novel collaborative research and informs our ongoing innovative teaching and extensive enterprise activities. This is further complemented by our outstanding record of doctoral supervision which has provided, on average, a PhD graduate from the School every two weeks.

- Career Prospects
Independent surveys continue to show that industry has the highest regard for our graduates. Over 90% were in employment and/or further study six months after graduating. Recent independent surveys of major employers have also consistently rated the School at the top nationally for civil engineering and construction graduates.

Find out how to apply here http://www.lboro.ac.uk/study/postgraduate/programmes/departments/civil/low-energy-building-services/

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Our flagship course blends theory and practice, giving you a strong grounding for a career in industry or research. This continually evolving course has been running for over 40 years and is well supported by the UK Engineering and Physical Sciences Research Council (EPSRC). Read more

About the course

Our flagship course blends theory and practice, giving you a strong grounding for a career in industry or research. This continually evolving course has been running for over 40 years and is well supported by the UK Engineering and Physical Sciences Research Council (EPSRC).

The core modules provide you with the basic skills you’ll need to become a control and systems engineer. You’ll take advanced modules in current areas of interest and complete a research-level dissertation project.

Push yourself further

We have cutting edge facilities and technology, including: advanced control
and systems software, modelling, simulation and controller design tools, robotics and a flexible manufacturing systems laboratory, evolutionary computing laboratory and clean facilities for the assembly of satellite instrumentation.

Make your mark

You could pursue a career with a large international organisation or government department. Our graduates work in sectors such as manufacturing, power generation and sustainable energy, with companies including British Airways, Jaguar Land Rover, NASA, IBM, Rolls-Royce and Unilever.

A masters from Sheffield is the mark of someone with the skills to apply their knowledge in industry, anywhere in the world. Our MSc in Advanced Control and Systems Engineering is accredited by the Engineering Council UK, IET and InstMC. These marks of assurance mean our degrees meet the high standards set by the engineering profession.

A Sheffield masters is a strong foundation for a career in industry or research.

Industry links

We have strong links with industrial partners such as Rolls-Royce and BAE Systems. Our industrial partners help us to design our courses, making sure you learn the right skills.

Rolls-Royce has a research and development centre here, using our expertise to explore today’s challenges. Our masters students often work side by side with researchers at these facilities.

A stimulating environment

The 2014 Research Excellence Framework (REF) rates us No 1 in the UK for research output, ahead of Oxford and Cambridge, and No 3 for overall research excellence. Our world-class reputation attracts highly motivated staff and students.

You’ll be taught by staff who work on real-world projects, developing new ideas – for submarines, robots, Formula One and even space exploration. Their approach to teaching is just as innovative: ideas like the award-winning take-home lab kit and e-puck mobile robotics activities help you develop the problem-solving skills you need for a trailblazing career.

Core modules

Foundations of Control Systems; State-Space, Optimal Control and Nonlinear Systems; Signal Processing and Estimation; Embedded Systems and Rapid Control Prototyping; Advanced Industrial Control; Control Systems Project and Dissertation.

Examples of optional modules

Intelligent and Vision Systems; Nonlinear and Hybrid Systems; Robotic and Autonomous Systems; Multisensor and Decision Systems.

Project work

You can use our award-winning take-home lab kits to explore core concepts at home. It supports our teaching, giving you the chance to learn by doing, when you want to, not just in classes. You’ll work on a major project of your own as part of your final assessment and there are chances to contribute to other projects throughout the course.

Teaching and assessment

You can expect a mix of lectures, tutorials, laboratory work and individual assignments. All the lectures and tutorials are for our systems and control students only. This helps you to bond with your fellow students, so you can learn from each other. You’re assessed on exams, coursework assignments and a project dissertation.

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This version of our flagship course includes a 12-month work placement. In the first year, you’ll take basic and advanced modules. Read more

About the course

This version of our flagship course includes a 12-month work placement. In the first year, you’ll take basic and advanced modules. In the second year, you’ll put your knowledge and skills to work.

We’ll give you training in research skills. You’ll carry out an extended research project with a dissertation. You’ll also write a report and give a presentation based on your work placement.

Push yourself further

We have cutting edge facilities and technology, including: advanced control
and systems software, modelling, simulation and controller design tools, robotics and a flexible manufacturing systems laboratory, evolutionary computing laboratory and clean facilities for the assembly of satellite instrumentation.

Make your mark

You could pursue a career with a large international organisation or government department. Our graduates work in sectors such as manufacturing, power generation and sustainable energy, with companies including British Airways, Jaguar Land Rover, NASA, IBM, Rolls-Royce and Unilever.

A masters from Sheffield is the mark of someone with the skills to apply their knowledge in industry, anywhere in the world. Our MSc in Advanced Control and Systems Engineering is accredited by the Engineering Council UK, IET and InstMC. These marks of assurance mean our degrees meet the high standards set by the engineering profession.

A Sheffield masters is a strong foundation for a career in industry or research.

Industry links

We have strong links with industrial partners such as Rolls-Royce and BAE Systems. Our industrial partners help us to design our courses, making sure you learn the right skills.

Rolls-Royce has a research and development centre here, using our expertise to explore today’s challenges. Our masters students often work side by side with researchers at these facilities.

A stimulating environment

The 2014 Research Excellence Framework (REF) rates us No 1 in the UK for research output, ahead of Oxford and Cambridge, and No 3 for overall research excellence. Our world-class reputation attracts highly motivated staff and students.

You’ll be taught by staff who work on real-world projects, developing new ideas – for submarines, robots, Formula One and even space exploration. Their approach to teaching is just as innovative: ideas like the award-winning take-home lab kit and e-puck mobile robotics activities help you develop the problem-solving skills you need for a trailblazing career.

Core Modules

Foundations of Control Systems; State-Space, Optimal Control and Nonlinear Systems; Signal Processing and Estimation; Embedded Systems and Rapid Control Prototyping; Managing Engineering Projects and Risk; Design Innovation Toolbox; Professional Responsibilities of the Engineer; Control Systems Project and Dissertation.

Examples of optional modules

Advanced Industrial Control; Robotic and Autonomous Systems; Intelligent and Vision Systems; Multisensor and Decision Systems; Nonlinear and Hybrid Systems.

Teaching and Assessment

There are lectures, tutorials, laboratory work and individual assignments. You will be assessed on examinations, coursework assignments and a project dissertation.

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This new course will not only teach you about the fundamental and advanced concepts of modelling, simulation, control, optimisation and systems engineering, but also provides you with a range of management techniques, including. Read more

About the course

This new course will not only teach you about the fundamental and advanced concepts of modelling, simulation, control, optimisation and systems engineering, but also provides you with a range of management techniques, including: project management, risk management, professional skills and effective management of innovative development.

Our world-leading research and our partnerships with industry give you an advantage in a competitive careers market. You’ll learn about the very latest developments in systems, control, computational intelligence and robotics – effectively preparing you for a future in engineering.

[Push yourself further]]

We have cutting edge facilities and technology, including: advanced control and systems software, modelling, simulation and controller design tools, robotics and a flexible manufacturing systems laboratory, evolutionary computing laboratory and clean facilities for the assembly of satellite instrumentation.

Make your mark

You could pursue a career with a large international organisation or government department. Our graduates work in sectors such as manufacturing, power generation and sustainable energy, with companies including British Airways, Jaguar Land Rover, NASA, IBM, Rolls-Royce and Unilever.

A masters from Sheffield is the mark of someone with the skills to apply their knowledge in industry, anywhere in the world. Our MSc in Advanced Control and Systems Engineering is accredited by the Engineering Council UK, IET and InstMC. These marks of assurance mean our degrees meet the high standards set by the engineering profession.

A Sheffield masters is a strong foundation for a career in industry or research.

Industry links

We have strong links with industrial partners such as Rolls-Royce and BAE Systems. Our industrial partners help us to design our courses, making sure you learn the right skills.

Rolls-Royce has a research and development centre here, using our expertise to explore today’s challenges. Our masters students often work side by side with researchers at these facilities.

A stimulating environment

The 2014 Research Excellence Framework (REF) rates us No 1 in the UK for research output, ahead of Oxford and Cambridge, and No 3 for overall research excellence. Our world-class reputation attracts highly motivated staff and students.

You’ll be taught by staff who work on real-world projects, developing new ideas – for submarines, robots, Formula One and even space exploration. Their approach to teaching is just as innovative: ideas like the award-winning take-home lab kit and e-puck mobile robotics activities help you develop the problem-solving skills you need for a trailblazing career.

Core Modules

Foundations of Control Systems; State-Space, Optimal Control and Nonlinear Systems; Signal Processing and Estimation; Embedded Systems and Rapid Control Prototyping; Managing Engineering Projects and Risk; Design Innovation Toolbox; Professional Responsibilities of the Engineer; Control Systems Project and Dissertation.

Examples of optional modules

Advanced Industrial Control; Robotic and Autonomous Systems; Intelligent and Vision Systems; Multisensor and Decision Systems; Nonlinear and Hybrid Systems.

Teaching and Assessment

There are lectures, tutorials, laboratory work and individual assignments. You will be assessed on examinations, coursework assignments and a project dissertation.

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Our MSc Robotics will give you the opportunity to translate and develop your existing knowledge, understanding and skills to become an expert in robotics and autonomous systems (RAS). Read more
Our MSc Robotics will give you the opportunity to translate and develop your existing knowledge, understanding and skills to become an expert in robotics and autonomous systems (RAS).

You will develop the multidisciplinary knowledge and interdisciplinary skills needed to become one of the next generation of RAS engineers.

RAS is promising to deliver a step change in the way we live, work and interact on a day-to-day basis. In addition, large companies such as Google, Amazon and automotive and aerospace manufacturers are increasingly seeking to recruit in this area.

The course is taught by experts in control and systems engineering, computer science, electronic and electrical engineering, and psychology.

Modules

You'll study a mixture of modules in robotics, autonomous systems, engineering and computational intelligence, as well as advanced topics in vision, speech, neural networks, mobile robotics and computational neuroscience.

Core modules

Robotics
Biomechatronics
Robotics and Autonomous Systems
Hardware-in-the-Loop and Rapid Control Prototyping
Project

Examples of optional modules

State Space Control Design
Real-Time Embedded Systems
Speech Processing
Adaptive Intelligence
Parallel Computing with Graphical Processing Units
Computational Neuroscience I
Teaching and assessment

There are lectures, seminars, tutorials, practical/laboratory work, design classes, individual assignments and a major research project.

You’re assessed on exams, coursework assignments and a project dissertation.

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The overall objective of this master's degree is to enable students to find effective solutions to problems in the field of electronic engineering and, specifically, to design electronic equipment and automated production systems, perform maintenance and control in production industries, provide technical advice, or join the sales departments of companies in the electronics sector. Read more
The overall objective of this master's degree is to enable students to find effective solutions to problems in the field of electronic engineering and, specifically, to design electronic equipment and automated production systems, perform maintenance and control in production industries, provide technical advice, or join the sales departments of companies in the electronics sector. For graduates who wish to undertake doctoral studies, this programme will also prepare them to do effective research in collaboration with national and international research groups.

Career Opportunities

Graduates in University Master's Degree in Electronic Systems Engineering and Technology are capable to work in different types of industry:
-Engineering consultancy
-Engineering consultancy management
-Management of instrumentation/sensors in production plants
-Maintenance management
-Sales department management
-Research and development: companies in the chemical, industrial, energy sectors, automobileetc.
-Research and development in technology-based companies
-Research and development in universities and research centres
-Entrepreneurship
-Teaching

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Understanding all aspects of Human-Robot interaction. the programming that coordinates a robot’s actions with human action as well the human appreciation and trust in the robot. Read more
Understanding all aspects of Human-Robot interaction: the programming that coordinates a robot’s actions with human action as well the human appreciation and trust in the robot.
At present, there are many sensors and actuators in every device – so they may become embedded in a physical reality. For robots that move around in a specific setting there is a pressing need for the development of proper methods of control and joint-action. The embedded, embodied nature of human cognition is an inspiration for this, and vice versa. Computational modelling of such tasks can give insight into the nature of human mental processing. In the Master’s specialisation in Robot Cognition you’ll learn all about the sensors, actuators and the computational modelling that connects them.
Making sense of sensor data – developing artificial perception – is no trivial task. The perception, recognition and even appreciation of sound stimuli for speech and music (i.e. auditory scene analysis) require modelling and representation at many levels and the same holds for visual object recognition and computer vision. In this area, vocal and facial expression recognition (recognition of emotion from voices and faces) is a rapidly growing application area. In the area of action and motor planning, sensorimotor integration and action, there are strong links with research at the world-renowned Donders Centre for Cognition.
At Radboud University we also look beyond the technical side of creating robots that can move, talk and interpret emotions as humans do. We believe that a robot needs to do more than simply function to its best ability. A robot that humans distrust will fail even if it is well programmed. Culture also plays a role in this; people in Japan are more open to the possibilities of robots than in, for example, the Netherlands. We will teach you how to evaluate humans’ attitudes towards a robot in order to use that information to create robots that will be accepted and trusted and therefore perform even better.

See the website http://www.ru.nl/masters/ai/robot

Why study Robot Cognition at Radboud University?

- We offer a great mix of technical and social aspects of robot cognition.

- This programme focuses on programming robot behaviours and evaluating them rather than building the robots themselves. We teach you to programme robots that will be used in close contact with human beings, for example in healthcare and education, rather than in industry.

- Our cognitive focus leads to a highly interdisciplinary AI programme where students gain skills and knowledge from a number of different areas such as mathematics, computer science, psychology and neuroscience combined with a core foundation of artificial intelligence.

- This specialisation offers plenty of room to create a programme that meets your own academic and professional interests.

- Together with the world-renowned Donders Institute, the Max Planck Institute and various other leading research centres in Nijmegen, we train our students to become excellent researchers in AI.

- To help you decide on a research topic there is a semi-annual Thesis Fair where academics and companies present possible project ideas. Often there are more project proposals than students to accept them, giving you ample choice. We are also open to any of you own ideas for research.

- Our AI students are a close-knit group; they have their own room in which they often get together to interact, debate and develop their ideas. Every student also receives personal guidance and supervision from a member of our expert staff.

Our research in this field

The programme is closely related to the research carried out in the internationally renowned Donders Institute for Brain, Cognition and Behaviour. This institute has several unique facilities for brain imaging using EEG, fMRI and MEG. You could also cooperate with the Behavioural Science Institute and work in its Virtual Reality Laboratory, which can be used to study social interaction between humans and avatars.

An example of a possible thesis subject:
- Engaging human-robot interactions in healthcare for children and/or the elderly
Social robots are often deployed with 'special' user groups such as children and elderly people. Developing and evaluating robot behaviours for these user groups is a challenge as a proper understanding of their cognitive and social abilities is needed. Depending on the task, children for example need to be engaged and encouraged in a different way than adults do. What are effective robot behaviours and strategies to engage children and/or elderly people? How can these robot behaviours be evaluated in a proper way?

Career prospects

Our Artificial Intelligence graduates have excellent job prospects and are often offered a job before they have actually graduated. Many of our graduates go on to do a PhD either at a major research institute or university with an AI department. Other graduates work for companies interested in cognitive design and research. Examples of companies looking for AI experts with this specialisation: Philips, Siemens, Honda, Mercedes, Google. Some students have even gone on to start their own companies.

Job positions

Examples of jobs that a graduate of the specialisation in Robot Cognition could get:
- PhD Researcher on Cognitive-Affective Modelling for Social Robots
- PhD Researcher on Automatic analysis of human group behaviour in the presence of robots
- PhD Researcher on Automatic analysis of affective quality of conversations in human-robot interaction
- Advisor and innovation manager in the healthcare industry
- Social robotics and affective computing for robots expressing emotions
- Developer of control algorithms for using optic flow in drones
- Advisor for start-up company on developing new uses for tactile displays
- Team member in design of emotion recognition and training for autistic children

Internship

Half of your second year consists of an internship, giving you plenty of hands-on experience. We encourage students to do this internship abroad, although this is not mandatory. We do have connections with companies abroad, for example in China, Finland and the United States.

See the website http://www.ru.nl/masters/ai/robot

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