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Masters Degrees (Autonomous Systems)

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Robots have the potential to revolutionise society and the economy, working for us, beside us, and interacting with us. This EPSRC-sponsored programme will produce graduates with the technical skills and industry awareness to create an innovation pipeline from academic research to global markets. Read more

Research profile

Robots have the potential to revolutionise society and the economy, working for us, beside us, and interacting with us. This EPSRC-sponsored programme will produce graduates with the technical skills and industry awareness to create an innovation pipeline from academic research to global markets.

The robotics and autonomous systems area has been highlighted by the UK Government in 2013 as one of the eight Great Technologies that underpin the UK's Industrial Strategy for jobs and growth. Key application areas include manufacturing, assistive and medical robots, offshore energy, environmental monitoring, search and rescue, defence, and support for the ageing population.

The University of Edinburgh and Heriot-Watt University are jointly offering this innovative four-year PhD training programme, which combines a strong general grounding in current theory, methods and applications with flexibility for individualised study and a specialised PhD project.

Robotics and autonomous systems are increasingly studied beyond the range of classical engineering. Today robots represent one of the main areas of application of computer science and provide challenges for mathematics and natural science.

It is impossible to imagine transportation, warehousing, safety systems, space and marine exploration, prosthetics, and many other areas of industry, technology and science without robots. Robots are used in theoretical biology and the neurosciences as a model of behaviour.

Areas of interest specific to the center include: movement control, planning, decision making, bio- and neurorobotics, human-robot interaction, healthcare applications, robot soccer, neuroprosthetics, underwater robotics, bipedal walking, service robots, robotic co-workers, computer vision, speech processing, computer animation realistic simulations, and machine learning.

Training and support

Our four-year PhD programme combines Masters level coursework and project work with independent PhD-level research.

In the first year, you will undertake four or five masters level courses, spread throughout robotics, machine learning, computational neuroscience, computer architectures, statistics, optimization, sensorics, dynamics, mechanics, image processing, signal processing, modelling, animation, artificial intelligence, and related areas. You will also undertake a significant introductory research project. (Students with previous masters-level work in these areas may request to take less courses and a larger project.)

At the end of the first year, successful students will be awarded an MSc by Research by the University of Edinburgh. From this basis, the subsequent three years will be spent developing and pursuing a PhD research project, under the close supervision of your primary and secondary supervisors. The PhD will be awarded jointly by the University of Edinburgh and the Heriot-Watt University.

You will have opportunities for three to six month internships with leading companies in your area, and to participate in our industrial engagement programme, exchanging ideas and challenges with our sponsor companies.

Throughout your studies, you will participate in our regular programmes of seminars, short talks and brainstorming sessions, and benefit from our pastoral mentoring schemes.

Our user partners in industry include companies working in offshore energy, environmental monitoring, defence, assisted living, transport, advanced manufacturing and education. They will provide the real world context for research, as well as opportunities for reciprocal secondments, internships and involvement in our industrial engagement programme.

The School of Informatics holds a Silver Athena SWAN award, in recognition of our commitment to advance the representation of women in science, mathematics, engineering and technology. The School is deploying a range of strategies to help female staff and students of all stages in their careers and we seek regular feedback from our research community on our performance.

Facilities

You will have access to the outstanding facilities in the Edinburgh Robotarium, a national facility for research into robot interaction, supporting the research of more than 50 world-leading investigators from 17 cross-disciplinary research groups.

Research groups at the Edinburgh Robotarium include humanoid movement control, underwater, land and airborne autonomous vehicles, human robot interaction, bio- and neuro-robotics, and planning and decision making in multirobot scenarios.

In addition, our research groups contain a diverse range of compute clusters for compute and data-intensive work, including a large cluster hosted by the Edinburgh Compute and Data Facility.

Career opportunities

Our aim is to produce innovation-ready graduates who are skilled in the principles of technical and commercial disruption and who understand how finance and organisation realise new products in start-up, SME and corporate situations.

We intend for our graduates to become leaders in the globally emerging market for autonomous and robotic systems that reduce risk, reduce cost, increase profit and protect the environment. This vision is shared by our industrial supporters, whose support for our internship programme indicates their strong desire to find highly qualified new employees.

Our component research groups already have excellent track-records in post-graduation destinations, including the research labs of industry-leading companies, and post-doctoral research positions in top tier universities.

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The world of robotics is exciting and fast paced – revolutionising the way we live, work and play. This course is for you if you’re a non-engineering graduate wishing to work for engineering companies. Read more
The world of robotics is exciting and fast paced – revolutionising the way we live, work and play.

This course is for you if you’re a non-engineering graduate wishing to work for engineering companies. This MSc will give you the skills needed to work for employers developing or applying:
-Devices or systems for robotics and automation
-Smart systems with autonomous capability
-Ubiquitous and wearable computing

You build on your individual responsibility, critical awareness and creative thinking, and examine issues such as:
-Project management, planning and scheduling
-Resourcing
-Documentation and communication

We also offer this MSc with an industrial placement year, making it a two-year course, or with a Masters industrial placement.

How will I study?

You’ll study an introduction to the course in the autumn term, with some tests and practical robotics projects. In the spring term you take taught modules.

Across the spring and summer terms you’ll work on your Masters Individual Project, either at the University or at a company.

Modules are assessed via:
-Hands-on projects
-Reports
-Essays
-Unseen examinations

The project is assessed by a report, presentation and dissertation.

MSc project

On our Masters courses, you’ll complete a substantial MSc project, which is often practical as well as theoretical. The project is designed for you to excel in your personal and professional development and to consolidate the material covered in your modules.

It demands individual responsibility and exposes you to issues of:
-Project management
-Resourcing
-Planning
-Scheduling
-Documentation and communication
-Critical awareness and creative thinking

In Engineering and Design, project assessment can include interim reports, presentations and a dissertation. Some projects are undertaken in groups and replicate the type of professional teamwork expected in industry. Topics are generated from the academic research and industrial collaborations in our Department, and a member of faculty supervises the project.

Scholarships

Our aim is to ensure that every student who wants to study with us is able to despite financial barriers, so that we continue to attract talented and unique individuals.

Chancellor's International Scholarship (2017)
-25 scholarships of a 50% tuition fee waiver
-Application deadline: 1 May 2017

HESPAL Scholarship (Higher Education Scholarships Scheme for the Palestinian Territories) (2017)
-Two full fee waivers in conjuction with maintenance support from the British Council
-Application deadline: 1 January 2017

USA Friends Scholarships (2017)
-A scholarship of an amount equivalent to $10,000 for nationals or residents of the USA on a one year taught Masters degree course.
-Application deadline: 3 April 2017

Careers

An MSc in Robotics and Autonomous Systems could be your passport to a career in a wide range of established and rapidly developing areas that are changing our lives including:
-Smart technologies
-Driverless vehicles
-Vehicle design
-Renewable energies
-Film and television
-Car production
-Space or underwater exploration
-Commercialised agriculture
-Medical diagnosis
-Remote and minimally invasive surgery
-Crime prevention

Read less
The world of robotics is exciting and fast paced – revolutionising the way we live, work and play. This course is for you if you’re a non-engineering graduate wishing to work for engineering companies. Read more
The world of robotics is exciting and fast paced – revolutionising the way we live, work and play.

This course is for you if you’re a non-engineering graduate wishing to work for engineering companies. This MSc will give you the skills needed to work for employers developing or applying:
-Devices or systems for robotics and automation
-Smart systems with autonomous capability
-Ubiquitous and wearable computing

You build on your individual responsibility, critical awareness and creative thinking, and examine issues such as:
-Project management, planning and scheduling
-Resourcing
-Documentation and communication

We also offer this MSc without a placement or with a Masters industrial placement.

How will I study?

You’ll study an introduction to the course in the autumn term, with some tests and practical robotics projects. In the spring term, you take taught modules.

Across the spring and summer terms, you’ll work on your Masters Individual Project, either at the University or at a company.

For your placement, you work in an industrial setting for at least 40 weeks, making your MSc a two-year course (full time). We help you seek and apply for your placement.

Modules are assessed via:
-Hands-on projects
-Reports
-Essays
-Unseen examinations

The project is assessed by a report, presentation and dissertation.

MSc project

On our Masters courses, you’ll complete a substantial MSc project, which is often practical as well as theoretical. The project is designed for you to excel in your personal and professional development and to consolidate the material covered in your modules.

It demands individual responsibility and exposes you to issues of:
-Project management
-Resourcing
-Planning
-Scheduling
-Documentation and communication
-Critical awareness and creative thinking

In Engineering and Design, project assessment can include interim reports, presentations and a dissertation. Some projects are undertaken in groups and replicate the type of professional teamwork expected in industry. Topics are generated from the academic research and industrial collaborations in our Department, and a member of faculty supervises the project.

Scholarships

Our aim is to ensure that every student who wants to study with us is able to despite financial barriers, so that we continue to attract talented and unique individuals.

Chancellor's International Scholarship (2017)
-25 scholarships of a 50% tuition fee waiver
-Application deadline: 1 May 2017

HESPAL Scholarship (Higher Education Scholarships Scheme for the Palestinian Territories) (2017)
-Two full fee waivers in conjuction with maintenance support from the British Council
-Application deadline: 1 January 2017

USA Friends Scholarships (2017)
-A scholarship of an amount equivalent to $10,000 for nationals or residents of the USA on a one year taught Masters degree course.
-Application deadline: 3 April 2017

Careers

An MSc in Robotics and Autonomous Systems could be your passport to a career in a wide range of established and rapidly developing areas that are changing our lives including:
-Smart technologies
-Driverless vehicles
-Vehicle design
-Renewable energies
-Film and television
-Car production
-Space or underwater exploration
-Commercialised agriculture
-Medical diagnosis
-Remote and minimally invasive surgery
-Crime prevention

Read less
The world of robotics is exciting and fast paced – revolutionising the way we live, work and play. This course is for you if you’re a non-engineering graduate wishing to work for engineering companies. Read more
The world of robotics is exciting and fast paced – revolutionising the way we live, work and play.

This course is for you if you’re a non-engineering graduate wishing to work for engineering companies. This MSc will give you the skills needed to work for employers developing or applying:
-Devices or systems for robotics and automation
-Smart systems with autonomous capability
-Ubiquitous and wearable computing

You build on your individual responsibility, critical awareness and creative thinking, and examine issues such as:
-Project management, planning and scheduling
-Resourcing
-Documentation and communication

We also offer this MSc with an industrial placement year, making it a two-year course, or without a placement.

How will I study?

You’ll study an introduction to the course in the autumn term, with some tests and practical robotics projects. In the spring term you take taught modules.

Across the spring and summer terms you’ll work on your Masters Individual Project, either at the University or at a company.

For your Masters placement, you work in an industrial setting for at least 12 weeks. We help you seek and apply for your placement.

Modules are assessed via:
-Hands-on projects
-Reports
-Essays
-Unseen examinations

The project is assessed by a report, presentation and dissertation.

MSc project

On our Masters courses, you’ll complete a substantial MSc project, which is often practical as well as theoretical. The project is designed for you to excel in your personal and professional development and to consolidate the material covered in your modules.

It demands individual responsibility and exposes you to issues of:
-Project management
-Resourcing
-Planning
-Scheduling
-Documentation and communication
-Critical awareness and creative thinking

In Engineering and Design, project assessment can include interim reports, presentations and a dissertation. Some projects are undertaken in groups and replicate the type of professional teamwork expected in industry. Topics are generated from the academic research and industrial collaborations in our Department, and a member of faculty supervises the project.

Scholarships

Our aim is to ensure that every student who wants to study with us is able to despite financial barriers, so that we continue to attract talented and unique individuals.

Chancellor's International Scholarship (2017)
-25 scholarships of a 50% tuition fee waiver
-Application deadline: 1 May 2017

HESPAL Scholarship (Higher Education Scholarships Scheme for the Palestinian Territories) (2017)
-Two full fee waivers in conjuction with maintenance support from the British Council
-Application deadline: 1 January 2017

USA Friends Scholarships (2017)
-A scholarship of an amount equivalent to $10,000 for nationals or residents of the USA on a one year taught Masters degree course.
-Application deadline: 3 April 2017

Careers

An MSc in Robotics and Autonomous Systems could be your passport to a career in a wide range of established and rapidly developing areas that are changing our lives including:
-Smart technologies
-Driverless vehicles
-Vehicle design
-Renewable energies
-Film and television
-Car production
-Space or underwater exploration
-Commercialised agriculture
-Medical diagnosis
-Remote and minimally invasive surgery
-Crime prevention

Read less
The MSc in Robotics will provide you with the ability to understand, design and implement modern robotic systems. Read more
The MSc in Robotics will provide you with the ability to understand, design and implement modern robotic systems. Robotics is increasingly prominent in a variety of sectors, from manufacturing and health to remote exploration of hostile environments such as space and the deep sea, and as autonomous and semi-autonomous systems that interact with people physically and socially.

This programme exposes you to a wide range of advanced engineering and computer science concepts, with the opportunity to carry out a practical robot project at the Bristol Robotics Laboratory, one of the UK's most comprehensive robotics innovation facilities and a leading centre of robotics research.

The programme is jointly awarded and jointly delivered by the University of Bristol and the University of the West of England, both based in Bristol, and therefore draws on the combined expertise, facilities and resources of the two universities. The Bristol Robotics Laboratory is a collaborative research partnership between the two universities with a vision to transform robotics by pioneering advances in autonomous robot systems that can behave intelligently with minimal human supervision.

Programme structure

Your course will cover the following core subjects:
-Robotics systems
-Robotic fundamentals
-Intelligent adaptive systems
-Robotics research preparation
-Image processing and computer vision
-Technology and context of robotics and autonomous systems
-Bio-inspired artificial intelligence

Typically you will be able to select from the following optional subjects:
-Computational neuroscience
-Uncertainty modelling for intelligent systems
-Introduction to artificial intelligence
-Learning in autonomous systems
-Design verification
-Animation production
-Advanced DSP and FPGA implementation
-Statistical pattern recognition
-Control theory
-Advanced techniques in multidisciplinary design
-Advanced dynamics
-Virtual product development
-Biomechanics
-Sensory ecology
-Transport modelling
-Electromechanical systems integration
-Advanced control and dynamics

Please note that your choice of optional units will be dependent on your academic background, agreement with the programme director and timetable availability.

Dissertation
During your second semester, you will start working on a substantial piece of research work that will make up one third of the overall MSc. It is possible to work on this project at Bristol Robotics Laboratory or in conjunction with one of our many industrial partners. Within the Bristol Robotics Laboratory, there are a number of themes from which projects may be chosen, including:
-Aerial robots
-Assisted living
-Bioenergy and self-sustainable systems
-Biomimetics and neuro-robotics
-Medical robotics
-Nonlinear robotics
-Robot vision
-Safe human-robot interaction
-Self-reparing robotic systems
-Smart automation
-Soft robotics
-Swarm robotics
-Tactile robotics
-Unconventional computation in robots
-Verification and validation for safety in robots

Further information is available from the Faculty of Engineering.

NB: Teaching for this programme is delivered at both the University of Bristol and the University of the West of England campuses. Students attending the programme will be given free transport passes to travel between the two universities.

Careers

Robotics is a huge field spanning areas such as electronics, mechanics, software engineering, mathematics, physics, chemistry, psychology and biology. Career opportunities include: automotive industry, aerospace industry, advanced manufacturing, deep sea exploration, space exploration, food manufacture, pharmaceutical production and industrial quality control.

Read less
Robotics and autonomous systems (RAS) are set to shape innovation in the 21st century, underpinning research in a wide range of challenging areas. Read more
Robotics and autonomous systems (RAS) are set to shape innovation in the 21st century, underpinning research in a wide range of challenging areas: the ageing population, efficient health care, safer transport, and secure energy. The UCL edge in scientific excellence, industrial collaboration and cross-sector activities make it ideally placed to deliver this MRes, which uniquely covers the whole spectrum of potential RAS areas and application.

Degree information

The programme teaches students the essentials of robotic and computational tools for robotics and autonomous systems. The key aim of the principal project thesis is to cultivate a deep understanding of robotics research, with a particular focus on a specific research topic in robotics and autonomous systems.

Students undertake modules to the value of 180 credits. The programme consists of one core module (15 credits), two optional modules (30 credits), two elective modules (30 credits), and a dissertation/report (105 credits).

Core modules
-Robotic Systems Engineering

Optional modules
-Robotic Control Theory and Systems
-Robotic Sensing, Manipulation and Interaction
-Robotic Vision and Navigation
-Numerical Optimisation
-Students also choose two elective MSc modules from across UCL Computer Science, UCL Medical Physics & Biomedical Engineering, UCL Mechanical Engineering and UCL Bartlett School of Architecture.

Dissertation/report
All students undertake an independent research project which culminates in a dissertation of 30,000 words.

Teaching and learning
Teaching is delivered by lectures, tutorials, practical sessions, projects and seminars. Assessment is through examination, individual and group projects and presentations, and design exercices.

Careers

Robotics is a growing field encompassing many technologies with tremendous opportunities for research and development both in industry and in academia, and with diverse applications across different industrial sectors spanning manufacturing, security, mining, design, transport, exploration and healthcare. Graduates from our MRes programme will will have project-focused experience and knowledge in robotics and the underpinning computational and analytical fundamentals. These skills will position graduates to be well placed to undertake PhD studies or industrial research and development in robotics and computational research specific to robotics but translational across different analytical disciplines, or applied fields that will be influenced by new robotic technologies and capabilities.

Employability
The MRes will develop skills widely relevant to a career in engineering industries and analytical problem-solving occupations. Graduates with skills to develop new robotics solutions and solve computational challenges in automation are likely to be in high demand globally.

Why study this degree at UCL?

UCL was ranked first in the UK for computer science and informatics in the recent Research Excellence Framework (REF).

With the external project involvement anticipated, students on this programme will have the opportunity to interact and collaborate with key companies in the industry - Airbus, Shadow Hand, OC Robotics and Intuitive Surgical - and work on real-world problems through industry-supported projects.

Recent investment across UCL in the Faculty of Engineering and The Bartlett Faculty of the Built Environment has created the infrastructure for an exciting robotics programme, which will be interdisciplinary and unique within the UK and Europe.

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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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Enterprise Systems Management is an innovative MSc degree course designed for those who want to pursue careers as managers and leaders in implementing technology-based information systems solutions to achieve business excellence. Read more
Enterprise Systems Management is an innovative MSc degree course designed for those who want to pursue careers as managers and leaders in implementing technology-based information systems solutions to achieve business excellence.

What's covered in the course?

To understand the design of Enterprise Systems and the benefits, you will firstly gain a broader understanding of systems thinking. Case studies and live project briefs underpin reinforcement of the learning and teaching.

The modules studied in this highly rigorous course are directly relevant to industry's current and expected future needs. You will be challenged to think outside the box, and apply knowledge and skills to provide robust and innovative solutions to a range of business problems.

You will study at our Enterprise Systems Centre at the City Centre Campus, where you will learn how modern management information systems are structured, how they are managed and the issues in integrating them to support effective management of robust business processes.

You will also be given access to SAP systems based on a virtual industry. This practical element of your programme provides an applied learning experience to develop knowledge in enterprise systems.

The Master's Project module will give you the opportunity to apply your skills and knowledge to practical problems and investigate an enterprise systems management research topic.

Why choose us?

-The course explores systems and activities within an enterprise that bring together processes, people and technology to help streamline operations to gain competitive advantages, improved performance and reduced operational costs, as well as implementing efficient business processes and improving real-time decision-making capabilities.
-Enterprise Systems Management students will have access to the University’s unique SAP Lab, providing an inspirational research and development space for you to use for creative thinking and design.
-You will participate in ERPsim to gain experience of enterprise systems, using virtual business scenarios to evaluate the impact of integration of processes on manufacturing and business analytics.
-The Faculty is a member of SAP University Alliance. This programme provides you with the opportunity to undertake SAP certification in a number of key areas including enterprise resources planning (ERP) and business warehouse (BW).

Course in depth

Our teaching philosophy revolves around you both ‘learning by doing’ and also transferring acquired knowledge to others. Activities will be conducted both individually and in teams, with tutors providing leadership and mentoring aimed at supporting your transition into independent learners. In this partnership, we will be encouraging you to become proactive, so that you can develop your confidence to undertake a range of progressively complex and challenging tasks.

We expect you to attend all teaching sessions, as well as to read and prepare before these sessions. Good preparation will enable you to get the most from your contact time and will help you become an autonomous learner. Advanced preparation is also a critical skill which you must develop if you wish to succeed in business or professional practice. Teaching sessions will include lectures and small group interactive seminars.

You will be assessed in a number of different ways, including coursework, patchwork assessment, examinations (seen and unseen, open and closed-book), presentations, practical assignments, vivas, online forums, podcasts and project work.

Semester One
-Enterprise Systems 20 credits
-Manufacturing Systems 20 credits
-Strategic Information Systems Planning 20 credits

Semester Two
-Technology Relationship Management 20 credits
-Business Intelligence and Technology Entrepreneurship 20 credits
-Principles of Project Management 20 credits

Semester Three
Postgraduate Project 60 credits

Accreditation

The Faculty is a member of SAP University Alliance. This programme provides you with the opportunity to undertake SAP Certification in a number of key areas, including enterprise resources planning (ERP) and business warehouse (BW).

Enterprise Systems Management students have access to the University’s unique SAP Lab, providing an inspirational research and development space for you to use for creative thinking and design.

Enhancing your employability skills

Birmingham City University programmes aim to provide graduates with a set of attributes which prepare them for their future careers. The BCU Graduate:
-Is professional and work-ready
-Is a creative problem solver
-Is enterprising
-Has a global outlook

The University has introduced the Birmingham City University Graduate+ programme, which is an extracurricular awards framework that is designed to augment the subject-based skills that you develop through your programme with broader employability skills, enhancing your employment options when you leave university.

The programme will help you with crafting your CV, personal statements, covering letters and presentations, and will also help you seek part-time work experience and voluntary placements.

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Do you want to be able to help design the next generation of renewable energy systems, clean cars and aircraft? Do you want to be able to invent the electrical systems for future factories and robots?. Read more
Do you want to be able to help design the next generation of renewable energy systems, clean cars and aircraft? Do you want to be able to invent the electrical systems for future factories and robots?

The Power Electronics, Machines and Drives (PEMD) is a 1 year degree course that provides its students with the knowledge to design, construct and analyse integrated networks of power electronic converters, electrical machines, actuators, energy storage devices, and control systems. As a result of recent technical advances, PEMD technology is becoming commonplace and can be found for example in more-electric aircraft and ships, electric vehicles, railway systems, renewable power generation, active management of power distribution systems, automation systems for factories and industrial processes. The adoption of PEMD technology is being driven by the need to increase energy efficiency, and controllability, whilst reducing system weight and maintenance costs.

This MSc course has been designed to equip electrical engineers with the knowledge and skills that are required to design modern PEMD systems, it includes the fundamentals of electrical machine and power electronics design, system integration, control, energy management and protection. The teaching team of eight academic staff belong to the Power Conversion Group and are all actively involved in researching new aspects of machines, drives, power electronics and electrical systems, particularly for applications in transport and sustainable electricity supply. The Group's research activities and industrial links inform the course content and enrich the student experience.

Aims

-To enable you to gain experience in the design and analysis of systems in electrical engineering, for example renewable energy, more-electric aircraft, vehicles, and next-generation electric power transmission
-To enable you to critically evaluate electrical machine and converter technology applied in manufacturing, power systems and transport industries
-To employ recent developments in these research areas and to prepare students who wish to continue on to research studies
-To develop your ability to integrate strands of machines, power electronics, drives and their control

The MSc course begins with an introduction to the fundamentals of converters, machines, actuators and relevant control systems. The course will give you a high level of exposure to system integration and is illustrated by a broad range of high-technology activities related to industrial and other systems.

The next five course units give specialist tuition on advanced topics including machine design, systems analysis, converter circuits and applications. In addition to lectures, tutorials, design exercises and enquiry-based learning, you will attend industrial seminars and practical laboratories which employ mainly industrial equipment. The course will include a `mechatronic' emphasis in examining how system blocks interact and ensuring that electrical and mechanical systems work together.

The summer is spent on this individual dissertation project, which is strongly supported by the Power Conversion Research Group's research base (including the Rolls-Royce University Technology Centre) and extensive industrial contacts. Cutting-edge research areas include versatile power and conversion systems for a variety of applications, including more-electric aircraft and ships, electric and hybrid vehicles, automation systems and autonomous/micro-grid power systems.

Career opportunities

Graduates of the course will have acquired in-depth education in modern design, broad exposure to the expanding range of applications, hands-on experience and integration into state-of-the-art systems. These comprise the special knowledge and skills needed for a professional career in energy conversion systems, an area in which engineers are in demand for key power electronic/drives/automation industries.

Industry's competitive edge relies on high-technology drives and in the integration of systems to provide superior overall performance. Applications include the `more electric aircraft', electric transport and high-reliability systems.

Our students have been employed by companies such as:
-ABB
-BAE Systems
-Cummings Turbo Technologies
-GE Energy
-National Instruments
-Rolls-Royce
-Siemens

Opportunities also exist for further study to doctoral level (PhD) in the Power Conversion Group's recently re-equipped and expanding research laboratories.

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This course offers you the opportunity to study advanced aspects of Computer Science within a research-based environment. The school is home to research centres in "Informatics" and "Autonomous Systems and Robotics". Read more
This course offers you the opportunity to study advanced aspects of Computer Science within a research-based environment. The school is home to research centres in "Informatics" and "Autonomous Systems and Robotics". The course provides dedicated modules that will showcase each of these research areas and provide you with an overview of the research themes within each area, along with detailed knowledge of a selected theme. You will have the opportunity to work alongside highly-rated research staff, use the School's world-leading visualisation laboratories and to develop some advanced programming skills.

Key benefits:

• The school is home to research centres in "Informatics" and "Autonomous Systems and Robotics".
• Taught by highly-rated research staff.
• One-year work-placement opportunities.

Visit the website: http://www.salford.ac.uk/pgt-courses/advanced-computer-science

Suitable for

Graduates or professionals wanting to study advanced aspects of computer science within a highly- rated research-based environment. You should have an interest in data mining, pattern recognition, virtual environments or future media.
Applicants should enjoy computer programming and be keen to develop further programming skills.

Format

A variety of delivery methods are adopted to achieve the intended learning outcomes, including lectures, supervised laboratories, group activities in class, assignments and projects. The modules are designed to incorporate hands-on activities with face-to-face support, and are not intended for purely distance learning.

• Lectures
• Tutorials
• Supervised laboratories
• Group activities
• Presentations
• Critical evaluations of case studies
• Assignments
• Examinations
• Project
• Reflective practice

Semester 1

• Advanced Programming
• Mixed Reality Media and Multi-Modal Interfaces

Semester 2

• Semantic Web and Information Extraction
• Advanced Databases

Semester 2

• Project for MSc

Assessment

• Coursework 60%
• Examinations 40%

Career potential

As a graduate from this course you will be well equipped to work in a range of jobs such as system analyst, systems programmer, system administrator or computer analyst. Previous graduates of Computer Science from University of Salford have found employment with companies such as Microsoft, Hewlett-Packard, 3M, Zen Internet, Siemens, Fast Web Media and Amsterdam Internet Exchange.

How to apply: http://www.salford.ac.uk/study/postgraduate/applying

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Robotics and autonomous systems (RAS) are set to shape innovation in the 21st century, underpinning research in a wide range of challenging areas. Read more
Robotics and autonomous systems (RAS) are set to shape innovation in the 21st century, underpinning research in a wide range of challenging areas: the ageing population, efficient health care, safer transport, and secure energy. The UCL edge in scientific excellence, industrial collaboration and cross-sector activities make it ideally placed to drive IT robotics and automation education in the UK.

Degree information

The programme provides an overview of robotic and computational tools for robotics and autonomous systems as well as their main computational components: kinetic chains, sensing and awareness, control systems, mapping and navigation. Optional modules in machine learning, human-machine interfaces and computer vision help students grasp fields related to robotics more closely, while the project thesis allows students to focus on a specific research topic in depth.

Students undertake modules to the value of 180 credits.

The programme consists of four core modules (60 credits), two optional modules (30 credits), two elective modules (30 credits), and a dissertation/report (60 credits).

Core modules
-Robotic Control Theory and Systems
-Robotic Sensing, Manipulation and Interaction
-Robotic Systems Engineering
-Robotic Vision and Navigation

Optional modules
-Acquisition and Processing of 3D Geometry
-Affective Computing and Human-Robot Interaction
-Artificial Intelligence and Neural Computing
-Image Processing
-Inverse Problems in Imaging
-Machine Vision
-Mathematical Methods, Algorithmics and Implementations
-Probabilistic and Unsupervised Learning
-Research Methods and Reading
-Supervised Learning
-Other selected modules available within UCL Computer Science
-Students also choose two elective MSc modules from across UCL Computer Science, UCL Medical Physics & Biomedical Engineering, UCL Mechanical Engineering and UCL Bartlett School of Architecture.

Dissertation/report
All students undertake an independent research project which culminates in a dissertation of 30,000 words.

Teaching and learning
Teaching is delivered by lectures, tutorials, practical sessions, projects and seminars. Assessment is through examination, individual and group projects and presentations, and design exercises.

Careers

Robotics is a growing field encompassing many technologies with applications across different industrial sectors, and spanning manufacturing, security, mining, design, transport, exploration and healthcare. Graduates from our MSc programme will have diverse job opportunities in the international marketplace with their knowledge of robotics and the underpinning computational and analytical fundamentals that are highly valued in the established and emerging economies. Students will also be well placed to undertake PhD studies in robotics and computational research specific to robotics but translational across different analytical disciplines or applied fields that will be influenced by new robotic technologies and capabilities.

Employability
This programme prepares students to enter a robotics-related industry or any other occupation requiring engineering or analytical skills. Graduates with skills to develop new robotics solutions and solve computational challenges in automation are likely to be in demand globally.

Why study this degree at UCL?

UCL was ranked first in the UK for computer science and informatics in the recent Research Excellence Framework (REF).

With the external project involvement anticipated, students on this programme will have the opportunity to interact and collaborate with key companies in the industry - Airbus, Shadow Hand, OC Robotics and Intuitive Surgical - and work on real-world problems through industry-supported projects.

Recent investment across UCL in the Faculty of Engineering and The Bartlett Faculty of the Built Environment has created the infrastructure for an exciting robotics programme, which will be interdisciplinary and unique within the UK and Europe.

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

Who is it for?

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

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

Objectives

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

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

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

Placements

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

Academic facilities

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

Teaching and learning

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

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

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

Assessment

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

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

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

Modules

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

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

With respect to hours please consult the SMCSE programmes office.

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

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

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

Career prospects

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

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

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This course enables graduates in Business or Information Systems to further their knowledge and career opportunities in business-led information systems. Read more
This course enables graduates in Business or Information Systems to further their knowledge and career opportunities in business-led information systems.

An interdisciplinary course, it provides technical knowledge of applied programming, computer security, financial and business data analysis, strategic management of information systems and project management.

Intermediate qualifications available:

• Postgraduate certificate – 60 credits at Masters level
• Postgraduate diploma – 120 credits at Masters level

Visit the website: https://www.beds.ac.uk/howtoapply/courses/postgraduate/next-year/business-information-systems

Course detail

• Study on an interdisciplinary course that combines information technology and business, with areas including applied programming, computer security, information management and security, financial analysis, data modelling and management, professional project management, business data analysis and data compliance and governance
• Explore state-of-the-art and emerging information system solutions
• Develop your analytical, evaluative and problem-solving skills, enabling you to propose, critique and justify potential information system solutions to business-oriented problems
• Gain a thorough understanding of the roles information systems play in the business environment as well as related ethical and legal considerations
• Benefit from valuable experience through our Academic into Business Computing (ABC) centre, opening up new career opportunities such as Business Analyst, Systems Analyst, Project Manager, IT consultant or IT/Business Lecturer.

Modules

• Applied Programming
• Data Modelling and Management
• Professional Project Management
• Managing Information Systems Strategy and Security Risks
• Emerging Technologies
• Computer and Network Security
• Financial Analysis
• Business Data Analysis
• MSc Project - Business Information Systems

Assessment

We employ a variety of assessment methods including written examinations, practical coursework assignments, problem worksheets, presentations and viva-voce (oral) examinations. This aims to ensure you are able to apply the knowledge gained to practical situations.

Careers

You will gain valuable skills for a career within Business Information Systems as well as those relevant for a much wider range of applications such as information analysis or decision support systems.

The unit ‘Professional Project Management’ requires you to work in a team to apply current project management and ethics methodology that embraces all of these knowledge areas in an integrated way while going through the stages of planning, execution and project control. You will work as part of a team, take responsibility and make autonomous decisions that impact on the project team performance.

The final project fosters independent and autonomous study. You will learn to take up the responsibility of conducting your project, typically derived from your own ideas, in collaboration with a dedicated member of the teaching staff as project supervisor.

Funding

For information on available funding, please follow the link: https://www.beds.ac.uk/howtoapply/money/scholarships/pg

How to apply

For information on how to apply, please follow the link: https://www.beds.ac.uk/howtoapply/course/applicationform

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Modern organisations rely upon good information systems in order to survive in the global competitive business environment. This course will suit graduates who, through their interest in information technology and information systems wish to pursue management roles in charge of information systems. Read more
Modern organisations rely upon good information systems in order to survive in the global competitive business environment.

This course will suit graduates who, through their interest in information technology and information systems wish to pursue management roles in charge of information systems.

It is delivered via a new Block delivery method. You study four blocks, one subject at a time, with two assessments for each block followed by a project. This enables you to focus on each topic and study in depth. There are six entry points through the year. This allows you to start when it is most suitable. The entry points are:

• September
• November
• January
• March
• June
• July

Why choose this course?

• Learn contemporary approaches to information systems management and develop original approaches to organisations challenges and opportunities
• Study aspects of information systems, digital analytics, marketing and the digital future and strategic management
• Explore how the full benefits of modern technologies can be realised, and address the problems associated with increasingly rapid rates of change in the information technology and business environment
• Benefit from a course that inspires teamwork and engagement to contribute to ethical an innovative practice
• Develop your skills within Information Systems theory, against a context of real business through our employability practice-based teaching and learning approach.
• Gain the ability to make critical high-level managerial and organisational decisions, and learn critical thinking and creativity in analysis, synthesis and appraisal

Visit the website: https://www.beds.ac.uk/howtoapply/courses/postgraduate/next-year/information-systems-management#about

Course detail

On this Information Systems Management course, you will undertake four 30 credit units and one 60 credit project unit.

Your course takes place over three semesters. Depending upon when you join the course, this will determine the order of units which you will study. You will benefit by beginning your studies with others who started at one of the earlier points of entry.

• Induction Week
• Unit 1 (30 credits)
• Unit 2 (30 credits)
• Unit 3 (30 credits)
• Unit 4 (30 credits)
• Business/Law project (BLP) 60 credits

The structure provides an intense and highly rewarding learning experience. The induction week will prepare you well for study on your course. You will then study only one unit at a time, which will enable you to focus upon the subject. Our evidence-based approach is designed to enhance engagement and success by applied practice, working with others and network development. The learning delivery takes place through a mix of interactive lectures, seminars, tutorials and lab sessions, along with guided learning, independent and autonomous learning. This emphasis on active learning uses the latest in teaching and learning approaches, integrated with our employability practice-based method with real businesses to enable you to gain real experience as part of your course.

Modules (unit order depends on your start date):

• Marketing and the Digital Future
• Information Systems
• Digital Analytics
• Strategic Management

Capstone project

This Master's course provides the opportunity to undertake different types of project, a "Capstone" experience which completes the integration of your studies applied in one of the following:

• Professional Practice - the central aim of this unit is to provide you with a thorough understanding of the commercial context in which organisations operate. By reflecting upon your existing knowledge and experience you will be required to respond to a number of work-based scenarios through critical evaluation to determine an appropriate course of action.

• The Live Project - this will enable you to work as part of a team on a project provided by a business organisation. The exact nature of the level of work, and nature of responsibility will depend upon the chosen organisation. However, there will be close negotiation between the company and the Business School.

• The dissertation - this is a conventional dissertation of 12,000 to 15,000 words, enabling you to undertake in-depth research of a topic relating to your course. It will consist of research question, aims and objectives, rationale for undertaking the study, literature review, research methodology, analysis of findings, conclusions and recommendations.

Assessment

In line with the Business School’s commitment to practice-based education, a large part of the assessment will relate to the demonstration of your ability to understand Information Systems Management in practice.

It is the expectation of the course that you understand the theory and develop critical thinking skills, which will help you to evaluate the relevance of what you have learnt. All of this comes together by being able to demonstrate rigorous expertise for a business or related organisation.

Careers

By completing the course you will have the skills and find career opportunities in the following industries/areas:

• Information Systems
• IT
• Management Information
• Financial Services
• Consulting
• Hospitality
• Electronics

You will also be well prepared for further research study in either the MPhil, or PhD.

Funding

For information on available funding, please follow the link: https://www.beds.ac.uk/howtoapply/money/scholarships/pg

How to apply

For information on how to apply, please follow the link: https://www.beds.ac.uk/howtoapply/course/applicationform

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Robotics requires a well-developed knowledge of areas ranging from computer science and artificial intelligence, to engineering and neuroscience, in order to produce hardware which can sense and manipulate the real world. Read more
Robotics requires a well-developed knowledge of areas ranging from computer science and artificial intelligence, to engineering and neuroscience, in order to produce hardware which can sense and manipulate the real world. This field has allowed us to develop everything from satellites and submarines, to racecars and robots.

Research carried out by our team has resulted in appearance in the Robot Soccer World Cup final, an autonomous robot fish in the London Aquarium, and a self-programming computer vision system.

Our course provides a comprehensive coverage of contemporary intelligent systems, with robots serving as a major example of the technology. Thanks to the leading research being undertaken in our School, you will gain a solid understanding of the foundations of this technology, exploring areas including:
-The principles by which sensed data are converted into useful information
-The practical aspects of developing intelligent and robotic systems
-Biologically-inspired robots
-Biometrics
-Computational intelligence

Our MSc Intelligent Systems and Robotics is delivered by our team of internationally recognised researchers, with expertise spanning the entire range of intelligent systems and experience of developing robots intended for land, under water and in the air.

We are ranked Top 10 in the UK in the 2015 Academic Ranking of World Universities, with more than two-thirds of our research rated ‘world-leading’ or ‘internationally excellent (REF 2014).

This course is also available on a part-time basis.

Professional accreditation

This degree is accredited by the Institution of Engineering and Technology (IET).This accreditation is increasingly sought by employers, and provides the first stage towards eventual professional registration as a Chartered Engineer (CEng).

Our expert staff

Our research covers a range of topics, from materials science and semiconductor device physics, to the theory of computation and the philosophy of computer science, with most of our research groups based around laboratories offering world-class facilities.

Our impressive external research funding stands at over £4 million and we participate in a number of EU initiatives and undertake projects under contract to many outside bodies, including government and industrial organisations.

In recent years we have attracted many highly active research staff and we are conducting world-leading research in areas such as evolutionary computation, brain-computer interfacing, intelligent inhabited environments and financial forecasting.

Specialist facilities

We are one of the largest and best resourced computer science and electronic engineering schools in the UK. Our work is supported by extensive networked computer facilities and software aids, together with a wide range of test and instrumentation equipment.
-We have six laboratories that are exclusively for computer science and electronic engineering students. Three are open 24/7, and you have free access to the labs except when there is a scheduled practical class in progress
-All computers run either Windows 7 or are dual boot with Linux
-Software includes Java, Prolog, C++, Perl, Mysql, Matlab, DB2, Microsoft Office, Visual Studio, and Project
-Students have access to CAD tools and simulators for chip design (Xilinx) and computer networks (OPNET)
-We also have specialist facilities for research into areas including non-invasive brain-computer interfaces, intelligent environments, robotics, optoelectronics, video, RF and MW, printed circuit milling, and semiconductors

Your future

Our recent graduates have progressed to a variety of senior positions in industry and academia. Some of the companies and organisations where our former graduates are now employed include:
-Electronic Data Systems
-Pfizer Pharmaceuticals
-Bank of Mexico
-Visa International
-Hyperknowledge (Cambridge)
-Hellenic Air Force
-ICSS (Beijing)
-United Microelectronic Corporation (Taiwan)

We also work with the university’s Employability and Careers Centre to help you find out about further work experience, internships, placements, and voluntary opportunities.

Example structure

-MSc Project and Dissertation
-Computer Vision
-Group Project
-Intelligent Systems and Robotics
-Machine Learning and Data Mining
-Professional Practice and Research Methodology
-Programming Embedded Systems
-Artificial Neural Networks (optional)
-Constraint Satisfaction for Decision Making (optional)
-Creating and Growing a New Business Venture (optional)
-Digital Signal Processing (optional)
-Electronic System Design & Integration (optional)
-Evolutionary Computation and Genetic Programming (optional)
-High Level Logic Design (optional)
-Game Artificial Intelligence (optional)
-Virtual Worlds (optional)
-Natural Language Engineering

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