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Masters Degrees (Intelligent Transport System)

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This course is designed in collaboration with transport industry partners to equip you to meet the needs of the rail and road industries. Read more
This course is designed in collaboration with transport industry partners to equip you to meet the needs of the rail and road industries. There is an increased demand for advancements in electrical, electronic, control and communication systems for transport, with a particular focus on themes like higher efficiency and sustainability, safety and driving assistance, position and traffic control for smart transport planning.

Modern electrical, electronic, control and communication systems for intelligent transport require today engineers with a combination of skills and solutions from cross-disciplinary abilities spanning electrical, electronic, control and communications. In this context, the overall aim of this Conversion Masters is to provide you with an enriching learning experience, and to enhance your knowledge and skill-base in the area of modern road vehicle and rail transport systems design.

This conversion course is intended both for engineers in current practice and for fresh honours graduates to facilitate their professional development, mobility and employability.

Course content

This course aims to enhance your knowledge and skills in the area of intelligent and efficient transport systems design. You will develop advanced practical skills that will help you determine system requirements, select and deploy suitable design processes and use the latest specialist tool chains to test and/or prototype a device or algorithm. The programme will help you acquire the cross-disciplinary skills and abilities that today are vital to be able to implement effective solutions for modern electrical, electronic and communication systems applied to intelligent transport. The broad range of disciplines covered by the course will enable you to enter a career that requires a cross-disciplinary approach with a practical skillset.

The subject areas covered within the course offer you an excellent launch pad which will enable you to enter into this ever expanding, fast growing and dominant area within the electrical engineering sector, and particularly in the area of intelligent and efficient transport systems. Furthermore, the course will provide the foundations required to re-focus existing knowledge and enter the world of multi-disciplined jobs.

Modules

The following modules are indicative of what you will study on this course.

Core modules
-Electric Motors and Control for Transport Systems
-Power Conversion and Drives for Transport Systems
-Project
-Sensor, Data Acquisition and Communication for Transport Systems

Associated careers

The course provides the foundations required to re-focus existing knowledge and enter the world of multi-disciplined jobs. Graduates can expect to find employment, for example, as Electrical systems design engineers; Control systems engineers, Transport systems engineers; Plant control engineers; Electronic systems design engineer; Communication systems design engineers; Sensor systems engineers; Computer systems engineer. Examples of typical industries of employment can be: Transport; Automobile; Aviation; Electrical systems; Electronic systems; Assembly line manufacturers; Robotics and home help; Toy; Communication systems; Logistics and distribution; Consumer industry; Life-style industry; Security and surveillance; Petro-chemical.

Professional recognition

This course will be seeking accreditation from the IET.

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Degree. Master of Science (two years) with a major in Transportation Systems Engineering. Read more
Degree: Master of Science (two years) with a major in Transportation Systems Engineering

The Intelligent transport system master's programme focuses on the integration of telecommunications and information technology into vehicles and physical road infrastructure in order to achieve increased efficiency, safety and mobility while decreasing environmental impact.

The programme gives students the engineering and managerial skills required for the design, planning, analysis and management of transport systems. The focus lies on road transportation systems and public transport and the understanding of traffic congestion, air pollution and road accident prevention.

The ITS programme gives students the skills to understand and control transport systems through the use of optimisation and simulation tools and application of telecommunications and geographical information systems. Study areas also include traffic modelling and traffic simulation, as well as road safety issues and management skills. To prepare the students for management positions, language and oral and written communication courses are integrated in the programme.

During the course of the programme students will be able to specialise in areas such as traffic safety management, mobile and wireless telecommunications or mathematical modelling of traffic systems. The programme ends with a six month long degree project.

ITS students at Linköping University will be at the frontline of Swedish ITS research as Linköping University is the coordinating university of the Swedish National Postgraduate School of ITS. The university is also a member of ITS-EduNet, the network for Training and Education on Intelligent Transport Systems.

The Intelligent transport systems master's programme is designed to prepare students for a career as a traffic engineer or traffic planner in public or private organisations, or as a developer of products and services related to the transport sector. Students are also well prepared for a research career or for continuing their studies towards a PhD degree.

Welcome to the Institute of Technology at Linköping University!

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This Masters in Sensor and Imaging Systems (SIS) focuses on the technologies and techniques that underpin a vast range of societal, research and industrial needs. Read more
This Masters in Sensor and Imaging Systems (SIS) focuses on the technologies and techniques that underpin a vast range of societal, research and industrial needs. It is delivered and awarded jointly by the Universities of Glasgow and Edinburgh. Sensing and sensor systems are essential for advances in research across all fields of physics, engineering and chemistry and are enhanced when multiple sensing functions are combined into arrays to enable imaging. Industrial applications of sensor systems are ubiquitous: from mass-produced sensors found in modern smart phones and every modern car to the state-of-the-art, specialist high-value sensors routinely used in oil and gas recovery, scientific equipment, machine tools, medical equipment and environmental monitoring. This is an industry-focused programme, designed for people looking to develop skills that will open up opportunities in a host of end applications.

Why this programme

-This is a jointly taught and awarded degree from the University of Glasgow and the University of Edinburgh, developed in with conjunction with CENSIS.
-CENSIS is a centre of excellence for Sensor and Imaging Systems (SIS) technologies, CENSIS enables industry innovators and university researchers to collaborate at the forefront of market-focused SIS innovation, developing products and services for global markets.
-CENSIS, the Innovation Centre for Sensor and Imaging Systems, is one of eight Innovation Centres that are transforming the way universities and business work together to enhance innovation and entrepreneurship across Scotland’s key economic sectors, create jobs and grow the economy. CENSIS is funded by the Scottish Funding Council (£10m) and supported by Scottish Enterprise, Highlands and Islands Enterprise and the Scottish Government.
-CENSIS has now launched its collaborative MSc in Sensor and Imaging Systems, designed to train the next generation of sensor system experts.
-This programme will allow you to benefit from the commercial focus of CENSIS along with the combined resources and complementary expertise of staff from two top ranking Russell Group universities, working together to offer you a curriculum relevant to the needs of industry.
-The Colleges of Science and Engineering at the University of Glasgow and the University of Edinburgh delivered power and impact in the 2014 Research Excellent Framework. Overall, 94% of Edinburgh’s and 90% of Glasgow’s research activity is world leading or internationally excellent, rising in Glasgow’s case to 95% for its impact.

Programme structure

The programme comprises a mix of core and optional courses. The curriculum you undertake is flexible and tailored to your prior experience and expertise, your particular research interests, and the specific nature of the extended research project topic provisionally identified at the beginning of the MSc programme.

Graduates receive a joint degree from the universities of Edinburgh and Glasgow.

Programme timetable
-Semester 1: University of Glasgow
-Semester 2: University of Edinburgh
-Semester 3: MSc project, including the possibility of an industry placement

Core courses
-Circuits and systems
-Detection and analysis of ionising radiation
-Fundamentals of sensing and imaging
-Imaging and detectors
-Technology and innovation management
-Research project preparation

Optional courses
-Biomedical imaging techniques
-Biophysical chemistry
-Biosensors and instrumentation
-Chemical biology
-Digital signal processing
-Electronic product design and manufacture
-Electronic system design
-Entrepreneurship
-Lab-on-chip technologies
-Lasers and electro-optic systems
-Microelectronics in consumer products
-Microfabrication techniques
-Nanofabrication
-Physical techniques in action
-Waves and diffraction

Industry links and employability

-This is an industry-focused programme, developed in conjunction with CENSIS, an Innovation Centre established to maximise the growth potential of Scottish companies operating in the sensor systems market. It will appeal to graduates seeking to develop sensor and imaging systems (SIS) skills that can be used in a range of end markets and applications.
-SIS is key enabling technology to achieve quality, efficiency and performance across all key markets – from transport, security and oil and gas, through to agriculture, the built environment and life sciences. The underlying requirement across of these sectors is the same: to sense, measure, process, communicate and visualise in a way that provides valuable and actionable information based on data.
-Sensing is essential for advances in research across all fields of physics, engineering and chemistry, and is enhanced when multiple sensing functions are combined into arrays to enable imaging. Industrial applications of SIS are ubiquitous: from mass-produced sensors found in smart phones and cars, to the state-of-the-art, specialist high-value sensors routinely used in oil and gas recovery, scientific equipment, machine tools, medical equipment and environmental monitoring.
-Increasingly, sensor systems – along with their underpinning device, signal processing, networking, information dissemination and diagnostics technologies - are being tightly integrated within the products and services of a wide range of Scottish businesses. There are endless opportunities within this emerging global market (worth £500Bn) to develop fundamental changes to benefit society and commercialise sensor lead products over wide market areas.
-Markets that need graduates with SIS skills include include defence and security, renewables, aerospace, subsea, intelligent transport, environmental science, built environment, energy and the smart grid, healthcare and drug discovery, medical diagnostics, and food and drink.

Career prospects

You will gain an understanding of sensor-based systems applicable to a whole host of markets supported by CENSIS.

Career opportunities are extensive. Sensor systems are spearheading the next wave of connectivity and intelligence for internet connected devices, underpinning all of the new ‘smart markets’, e.g., grid, cities, transport and mobility, digital healthcare and big data.

You will graduate with domain-appropriate skills suitable for a range of careers in areas including renewable energy, subsea and marine technologies, defence, automotive engineering, intelligent transport, healthcare, aerospace, manufacturing and process control, consumer electronics, and environmental monitoring.

Globally, the market for sensor systems is valued at £500Bn with an annual growth rate of 10%. The Scottish sensor systems market is worth £2.6Bn pa. There are over 170 sensor systems companies based in Scotland (SMEs and large companies), employing 16,000 people in high-value jobs including product R&D, design, engineering, manufacturing and field services.

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As a postgraduate student in the Department of Civil and Environmental Engineering, you will have the opportunities to make a world of difference by building knowledge at the forefront of the field, helping minimize environmental hazards and improving the quality of people’s lives. Read more
As a postgraduate student in the Department of Civil and Environmental Engineering, you will have the opportunities to make a world of difference by building knowledge at the forefront of the field, helping minimize environmental hazards and improving the quality of people’s lives.

The Civil Engineering field is developing rapidly. Almost any solution to a societal problem has some connection with civil engineering. Such solutions include the development, utilization and control of resources for the benefit of people. Broad-based and in-depth knowledge of the discipline together with an understanding of new design concepts and technologies is essential for those who wish to become leaders in this part of the engineering profession. The Department's postgraduate programs seek to develop such knowledge and skills and to relate research efforts closely to the interests and needs of the society so that our research is relevant and has practical value. Postgraduates may concentrate in structural, environmental, geotechnical engineering, water resources, transportation, construction engineering or infrastructure development. The Department also participates in the Environmental Engineering program.

There are 31 full-time faculty members and around 150 postgraduate students in the Department.

The MPhil program focuses on strengthening students' knowledge in certain areas of Civil and Structural Engineering and exposing them to the issues involved in the conception, design, construction, maintenance, and use of structures and facilities. Students are required to undertake coursework and successfully complete a thesis to demonstrate competence in research.

Research Foci

The Department's research lies in four broad areas with many sub-groups within each:

Infrastructure Development and Planning
Building-system design and analysis, monitoring and analysis of highway bridges, wind and seismic engineering, geotechnical engineering and soil-structure interaction, construction materials, transportation system modeling and operation, integrated risk and reliability assessment, and infrastructure system enhancement.

Green Building and Sustainable Development
This is an interdisciplinary area, with projects including the development of green building design standards, eco-friendly materials and technologies, recycling of construction materials, green retrofit and renovation technologies, and optimization of energy and water usage.

Intelligent Construction Materials
Development of advanced composite materials, cement-based functional materials and sustainable cementitious materials, application of composite materials for infrastructure repairs, and nanotechnology in concrete design.

Environmental and Water Resources Studies
Innovative physical, chemical and biological water and wastewater treatment processes, environmental quality management, remediation of contaminated soils and groundwater, mixing and transport phenomena of pollutants in natural and man-made systems, water resources management and engineering, stochastic optimization of water quality and resources, environmental fluid mechanics.

Facilities

The Department supports an excellent range of facilities comprising laboratories for structural engineering, construction materials, geotechnical engineering, environmental engineering, fluid mechanics, intelligent transportation systems, computation, and surveying. All are equipped to the highest standards with advanced instrumentation available. The Geotechnical Centrifuge Facility is equipped with a hydraulic biaxial shaking table and a 4-axis robotic manipulator. The CLP Power Wind-Wave Tunnel Facility, which assists projects in construction industry and environmental studies, is also managed by the Department’s professors.

The University’s central facilities include an electronic support shop, instrumentation pool, machine shop, CAD/CAM laboratory and the Materials Characterization and Preparation Facility. HKUST also maintains state-of-the-art computing facilities.

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The Department of Mechanical and Aerospace Engineering (MAE) is one of the leading MAE departments in Asia. It offers rigorous academic and professional training in a wide range of areas, including both traditional and cutting-edge topics in energy, mechanics, advanced materials, nano/biotechnology, and manufacturing. Read more
The Department of Mechanical and Aerospace Engineering (MAE) is one of the leading MAE departments in Asia. It offers rigorous academic and professional training in a wide range of areas, including both traditional and cutting-edge topics in energy, mechanics, advanced materials, nano/biotechnology, and manufacturing.

The aim of the MAE Department is to produce high quality MAE graduates with competitive academic training, technology leadership, and/or entrepreneurship.

The Department has 26 full-time faculty members. Many of them are internationally renowned scholars in their fields. There are about 150 research postgraduate students. The MAE Department is also equipped with many state-of-the-art laboratory facilities. Our faculty and postgraduate students conduct research at the frontier of mechanical and aerospace engineering and collaborate closely with local industry.

The MPhil program focuses on strengthening students' background in the fundamentals of mechanical and aerospace engineering and exposing them to the environment of academic research and development. Students are required to undertake coursework and complete a thesis to demonstrate their competence in engineering research.

Research Foci

The Department's research concentrates on energy and environmental engineering, mechanics and materials, and mechatronics and manufacturing. Research covers several major areas:

Solid Mechanics and Dynamics
These are two of the fundamental pillars of Mechanics research. The Department has a diverse faculty with expertise in these fields. Research activities range from applied to theoretical problems, and have a marked multidisciplinary nature. They involve: applied mathematics, solid mechanics, nonlinear dynamics, computations, solid state physics, material science and experiments for various kinds of solid materials/systems and mechanical behaviors. Faculty members work on problems of both static and dynamic natures with different types of evolutions. These problems also involve multi-field coupling on different scales of time and length, from micro-second to long time creep processes and from a very small carbon nanotube or a cell to macroscopic scale composite materials and electro-mechanical devices/systems.

Materials Technology
Materials engineering focuses on characterizing and processing new materials, developing processes for controlling their properties and their economical production, generating engineering data necessary for design, and predicting the performance of products. Research topics include: smart materials, biomaterials, thin films, composites, fracture and fatigue, residual life assessment, materials issues in electronic packaging, materials recycling, plastics flow in injection molding, advanced powder processing, desktop manufacturing, and instrumentation and measurement techniques.

Energy/Thermal Fluid and Environment Engineering
Research in energy, thermal/fluids and environmental engineering includes fuel cells and batteries, advanced renewable energy storage systems, thermoelectric materials and devices, nanoscale heat and mass transfer, transport in multicomponent and multiphase systems, innovative electronics cooling systems, energy efficient buildings, and contaminant transport in indoor environments.

Design and Manufacturing Automation
These elements lie at the heart of mechanical engineering in which engineers conceive, design, build, and test innovative solutions to "real world" problems. Research is being conducted in the areas of geometric modeling, intelligent design and manufacturing process optimization, in-process monitoring and control of manufacturing processes, servosystem control, robotics, mechatronics, prime-mover system control, sensor technology and measurement techniques, and bio-medical systems design and manufacturing.

Microsystems and Precision Engineering
Micro ElectroMechanical Systems (MEMS) is a multidisciplinary research field which has been making a great impact on our daily life, including various micro sensors used in personal electronics, transportation, communication, and biomedical diagnostics. Fundamental and applied research work is being conducted in this area. Basic micro/nanomechanics, such as fluid and solid mechanics, heat transfer and materials problems unique to micro/nanomechanical systems are studied. New ideas to produce microsystems for energy, biomedicine and nanomaterials, micro sensors and micro actuators are explored. Technology issues related to the micro/nanofabrication of these devices are being addressed.

Aerospace Engineering
Aerospace engineering is a major branch of engineering concerned with research, development, manufacture and operation of aircraft and spacecraft. Within the aerospace engineering group, fundamental and applied research is being conducted in areas such as aerodynamics, aeroacoustics, aircraft and engine noise and performance, combustion dynamics, thermoacoustics, atomization and sprays, and aircraft design and optimization. Advanced experimental facilities and high-fidelity computational methods are being developed and used. The group boasts two world-class anechoic wind tunnels for aerodynamics and aeroacoustics research, and is home to a major research center on aircraft noise technology.

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Mechanical engineering is the basis of just about anything that has movable parts, which includes areas like transport (automotive, railway, aerospace), renewable energy, and manufacturing. Read more
Mechanical engineering is the basis of just about anything that has movable parts, which includes areas like transport (automotive, railway, aerospace), renewable energy, and manufacturing. These areas will continue to be important to the UK economy and to all developed economies.

The taught part of this course consists of six compulsory modules. An individual industrial project allows you to extend your knowledge by exploring an area that interests you, whilst giving experience of the way in which a complete product or process requirement would be addressed.

The PgDip covers a selection of taught modules, with no individual project. Students may progress to an MSc given good results.

Modules
• Intelligent System Control
• Mechanics and Actuators
• Advanced CAD/CAM
• Design and Modelling of Systems
• Renewable Energy
• Linking Group Project
• Individual Project

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This MSc has been designed to capture the essence of the rapidly developing fields of Embedded Microelectronics and Wireless Systems. Read more
This MSc has been designed to capture the essence of the rapidly developing fields of Embedded Microelectronics and Wireless Systems. It is suitable for a computer science or electrical/electronic engineering graduate who wishes to specialise in the high-speed technology of embedded microelectronics and wireless systems including mobile communications.

As a leading university we are committed to the advancement of embedded microelectronic systems. Research in the University is carried out in several faculty research centres such as Transport & Mobility, Manufacturing & Material Engineering and Cogents Lab, where advances in fields associated with embedded microelectronics and wireless systems include designing real-time wireless networks, the application of systems modelling, statistical and artificial intelligence techniques.

WHY CHOOSE THIS COURSE?

-Electrical and electronic research carried out in the Faculty is recognised as world-leading, 45% Internationally Excellent (RAE 2008)
-Excellent links with a number of industrial organisations enable access to the use of high-cost equipment for real-time investigations

WHAT WILL I LEARN?

The MSc in Embedded Microelectronics and Wireless Systems curriculum consists of a fixed menu of study and a substantial MSc project. Successful completion of both parts leads to the award of MSc in Embedded Microelectronics and Wireless Systems. Completion of the taught modules without a project leads to the award of a Postgraduate Diploma.

The mandatory modules are as follows:
-Digital System Design with VHDL
-Object Orientated Programming
-Digital Communications
-Digital Signal and Image Processing
-Robotics: Kinematics, Dynamics and Applications
-Embedded Operating Systems
-Wireless Intelligent Systems
-Microprocessor Applications
-Individual Project

Prospective students should be aware that most of the mandatory modules include an element of programming, usually in the C/C++ language.

HOW WILL THIS COURSE ENHANCE MY CAREER PROSPECTS?

Embedded Microelectronics and Wireless Systems are now ever-present in all aspects of technological life for example automotive, biotechnology, communications fixed and mobile networks, information technology, industrial electronics process control, security, and computer technology.

So much so that there is a demand for top graduates in the fields of embedded microelectronics and wireless systems to work either in their development or in the vast number of industries that employ these technologies.

Opportunities also exist to complete a PhD research degree upon completion of the master’s course. More information can be found on our Research page.

GLOBAL LEADERS PROGRAMME

Centre for Global Engagement logoTo 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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