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Masters Degrees (Satellite Engineering)

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Our Masters programme in Satellite Communications Engineering is designed to give you the specialist multidisciplinary skills required for careers in the satellite and space industries. Read more

Our Masters programme in Satellite Communications Engineering is designed to give you the specialist multidisciplinary skills required for careers in the satellite and space industries.

We have an exceptional concentration of academic staff experienced in the satellite area, in addition to well-established contacts with all the major satellite manufacturers, operators and service providers.

Industry participates in the MSc programme in both lecturing and projects, and facilitates excellent engagement for our students. Graduation from this programme will therefore make you very attractive to the relevant space-related industries that employ over 6,500 people in the UK alone.

Read about the experience of a previous student on this course, Thanat Varathon.

Programme structure

This programme is studied full-time over one academic year and part-time students must study at least two taught technical modules per academic year. It consists of eight taught modules and a project.

Example module listing

The following modules are indicative, reflecting the information available at the time of publication. Please note that not all modules described are compulsory and may be subject to teaching availability and/or student demand.

Facilities, equipment and support

Through consistent investment, we have built up an impressive infrastructure to support our students and researchers. The University of Surrey hosts Surrey Space Centre – a unique facility comprising academics and engineers from our own spin-out company, Surrey Satellite Technology Ltd.

Our mission control centre was designed and developed by students to support international CubeSat operations as part of the GENSO network, and it also supports the development of the University’s own educational satellites.

Our teaching laboratories provide ‘hands-on’ experience of satellite design and construction through the use of EyasSAT nano-satellite kits. They also house meteorological satellite receiving stations for the live reception of satellite weather images.

Elsewhere, our fully equipped RF lab has network analyser, signal and satellite link simulators. The Rohde and Schwartz Satellite Networking Laboratory includes DVBS2-RCS generation and measurement equipment, and roof-mounted antennas to communicating live with satellites.

A security test-bed also exists for satellite security evaluation. We have a full range of software support for assignments and project work, including Matlab, and you will be able to access system simulators already built in-house.

Satellite Communications Engineering students can also make use of SatNEX, a European Network of Excellence in satellite communications supported by ESA; a satellite platform exists to link the 22 partners around Europe. This is used for virtual meetings and to participate in lectures and seminars delivered by partners.

Our own spin-out company, Surrey Satellite Technology Ltd, is situated close by on the Surrey Research Park and provides ready access to satellite production and industrial facilities. In addition, we have a strategic relationship with EADS Airbus Europe-wide and several other major communications companies.

Technical characteristics of the pathway

This programme in satellite communications engineering. provides detailed in-depth knowledge of theory and techniques applicable to radio frequency (RF) and microwave engineering.

The programme includes core modules in both RF and microwave covering all ranges of wireless frequencies and a number of application devices including radio frequency identification (RFID), broadcasting, satellite links, microwave ovens, printed and integrated microwave circuits.

Additional optional modules enable the student to apply the use of RF and microwave in subsystem design for either mobile communications, satellite communications, nanotechnology or for integration with optical communications.

The teaching material and projects are closely related to the research being carried out in the Department’s Advanced Technology Institute and the Institute for Communication Systems.

Global opportunities

We often give our students the opportunity to acquire international experience during their degrees by taking advantage of our exchange agreements with overseas universities.

In addition to the hugely enjoyable and satisfying experience, time spent abroad adds a distinctive element to your CV.



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Why Surrey?. This degree mirrors the two-year Masters programme structure that is common in the USA, and is an ideal stepping stone to a PhD or a career in industry. Read more

Why Surrey?

This degree mirrors the two-year Masters programme structure that is common in the USA, and is an ideal stepping stone to a PhD or a career in industry.

The optional professional placement component gives you the opportunity to gain experience from working in industry, which cannot normally be offered by the standard technically-focused one-year Masters programme.

Programme overview

The Electronic Engineering Euromasters programme is designed for electronic engineering graduates and professionals with an interest in gaining further qualifications in advanced, cutting-edge techniques and technologies. Current pathways offered include:

  • Communications Networks and Software
  • RF and Microwave Engineering
  • Mobile Communications Systems
  • Mobile and Satellite Communications
  • Mobile Media Communications
  • Computer Vision, Robotics and Machine Learning
  • Satellite Communications Engineering
  • Electronic Engineering
  • Space Engineering
  • Nanotechnology and Renewable Energy
  • Medical Imaging

Please note that at applicant stage, it is necessary to apply for the Electronic Engineering (Euromasters). If you wish to specialise in one of the other pathways mentioned above, you can adjust your Euromaster programme accordingly on starting the course.

Programme structure

This programme is studied full-time over 24 months. It consists of eight taught modules, two modules based on experimental reflective learning and an extended project.

Please view the website for an example module listing.

Partners

The MSc Euromasters complies with the structure defined by the Bologna Agreement, and thus it is in harmony with the Masters programme formats adhered to in European universities. Consequently, it facilitates student exchanges with our partner universities in the Erasmus Exchange programme.

A number of bilateral partnerships exist with partner institutions at which students can undertake their project. Current partnerships held by the Department include the following:

  • Brno University of Technology, Czech Republic
  • University of Prague, Czech Republic
  • Universität di Bologna, Italy
  • Universität Politècnica de Catalunya, Barcelona, Spain
  • Universita' degli Studi di Napoli Federico II, Italy

Educational aims of the programme

The taught postgraduate degree programmes of the Department are intended both to assist with professional career development within the relevant industry and, for a small number of students, to serve as a precursor to academic research.

Our philosophy is to integrate the acquisition of core engineering and scientific knowledge with the development of key practical skills (where relevant). To fulfil these objectives, the programme aims to:

  • Attract well-qualified entrants, with a background in electronic engineering, physical sciences, mathematics, computing and communications, from the UK, Europe and overseas
  • Provide participants with advanced knowledge, practical skills and understanding applicable to the MSc degree
  • Develop participants' understanding of the underlying science, engineering, and technology, and enhance their ability to relate this to industrial practice
  • Develop participants' critical and analytical powers so that they can effectively plan and execute individual research/design/development projects
  • Provide a high level of flexibility in programme pattern and exit point
  • Provide students with an extensive choice of taught modules, in subjects for which the Department has an international and UK research reputation

A graduate from this MSc programme should:

  • Know, understand and be able to apply the fundamental mathematical, scientific and engineering facts and principles that underpin electronic engineering
  • Be able to analyse problems within the field of electronic engineering and find solutions
  • Be able to use relevant workshop and laboratory tools and equipment, and have experience of using relevant task-specific software packages to perform engineering tasks
  • Know, understand and be able to use the basic mathematical, scientific and engineering facts and principles associated with the topics within electronic engineering
  • Be aware of the societal and environmental context of his/her engineering activities
  • Be aware of commercial, industrial and employment-related practices and issues likely to affect his/her engineering activities
  • Be able to carry out research-and-development investigations
  • Be able to design electronic circuits and electronic/software products and systems

Enhanced capabilities of MSc (Euromasters) graduates:

  • Demonstrate transferable skills such as problem solving, analysis and critical interpretation of data, through the undertaking of the extended 90-credit project
  • Know how to take into account constraints such as environmental and sustainability limitations, health and safety and risk assessment
  • Have gained comprehensive understanding of design processes
  • Understand customer and user needs, including aesthetics, ergonomics and usability
  • Have acquired experience in producing an innovative design
  • Appreciate the need to identify and manage cost drivers
  • Have become familiar with the design process and the methodology of evaluating outcomes
  • Have acquired knowledge and understanding of management and business practices
  • Have gained the ability to evaluate risks, including commercial risks
  • Understand current engineering practice and some appreciation of likely developments
  • Have gained extensive understanding of a wide range of engineering materials/components
  • Understand appropriate codes of practice and industry standards
  • Have become aware of quality issues in the discipline

Global opportunities

We often give our students the opportunity to acquire international experience during their degrees by taking advantage of our exchange agreements with overseas universities.

In addition to the hugely enjoyable and satisfying experience, time spent abroad adds a distinctive element to your CV.



Read less
Mobile communications provide terrestrial coverage in densely populated areas, while satellite communications enable wireless communication in regions where mobile networking is not cost-effective. Read more

Mobile communications provide terrestrial coverage in densely populated areas, while satellite communications enable wireless communication in regions where mobile networking is not cost-effective. The programme gives you an in-depth understanding of the engineering aspects of these important current and future technologies.

Read about the experience of a previous student on this course, Gideon Ewa.

Programme structure

This programme is studied full-time over one academic year and part-time students must study at least two taught technical modules per academic year, until a total of eight is reached. It consists of eight taught modules and a project.

Example module listing

The following modules are indicative, reflecting the information available at the time of publication. Please note that not all modules described are compulsory and may be subject to teaching availability and/or student demand.

Educational aims of the programme

The programme aims to:

  • Attract well-qualified entrants, with a background in Electronic Engineering, Physical Sciences, Mathematics, Computing & Communications, from the UK, Europe and overseas
  • Provide participants with advanced knowledge, practical skills and understanding applicable to the MSc degree
  • Develop participants' understanding of the underlying science, engineering, and technology, and enhance their ability to relate this to industrial practice
  • Develop participants' critical and analytical powers so that they can effectively plan and execute individual research/design/development projects
  • Provide a high level of flexibility in programme pattern and exit point
  • Provide students with an extensive choice of taught modules, in subjects for which the Department has an international and UK research reputation

Intended capabilities for MSc graduates:

  • Underpinning learning– know, understand and be able to apply the fundamental mathematical, scientific and engineering facts and principles that underpin mobile and satellite communications
  • Engineering problem solving - be able to analyse problems within the field of mobile and satellite communications and more broadly in electronic engineering and find solutions
  • Engineering tools - be able to use relevant workshop and laboratory tools and equipment, and have experience of using relevant task-specific software packages to perform engineering tasks
  • Technical expertise - know, understand and be able to use the basic mathematical, scientific and engineering facts and principles associated with the topics within mobile and satellite communications
  • Societal and environmental context - be aware of the societal and environmental context of his/her engineering activities
  • Employment context - be aware of commercial, industrial and employment-related practices and issues likely to affect his/her engineering activities
  • Research & development investigations - be able to carry out research-and- development investigations
  • Design - where relevant, be able to design electronic circuits and electronic/software products and systems

Technical characteristics of the pathway

This Programme in Mobile and Satellite Communications reflects the importance of mobile telephony, mobile data communications and satellite-based communications as complementary technologies.

Students will gain a detailed knowledge of the fundamentals and advanced concepts involved in communications and 3G/4G/5G mobile technology, and satellite-based communications and networking.

This material is complemented by study in areas such as mobile applications and web services, mobile app software development, RF design, the Internet of Things, and network management.

The teaching material and projects are closely related to the research being carried out in the EE Department's Institute for Communications Systems.

Global opportunities

We often give our students the opportunity to acquire international experience during their degrees by taking advantage of our exchange agreements with overseas universities.

In addition to the hugely enjoyable and satisfying experience, time spent abroad adds a distinctive element to your CV.



Read less
Our Masters in Space Engineering programme is designed to give you the specialist multidisciplinary knowledge and skills required for a career working with space technology and its applications. Read more

Our Masters in Space Engineering programme is designed to give you the specialist multidisciplinary knowledge and skills required for a career working with space technology and its applications.

Surrey students have access to all aspects of the design and delivery of spacecraft and payloads, and as a result are very attractive to employers in space-related industries.

As we develop and execute complete space missions, from initial concept to hardware design, manufacturing and testing, to in orbit operations (controlled by our ground station at the Surrey Space Centre), you will have the chance to be involved in, and gain experience of, real space missions.

Programme structure

This programme is studied full-time over one academic year and part-time students must study at least two taught technical modules per academic year. It consists of eight taught modules and a project.

Example module listing

The following modules are indicative, reflecting the information available at the time of publication. Please note that not all modules described are compulsory and may be subject to teaching availability and/or student demand.

Educational aims of the programme

Our philosophy is to integrate the acquisition of core engineering and scientific knowledge with the development of key practical skills (where relevant). To fulfil these objectives, the programme aims to:

  • Attract well-qualified entrants, with a background in Electronic Engineering, Physical Sciences, Mathematics, Computing & Communications, from the UK, Europe and overseas
  • Provide participants with advanced knowledge, practical skills and understanding applicable to the MSc degree
  • Develop participants' understanding of the underlying science, engineering, and technology, and enhance their ability to relate this to industrial practice
  • Develop participants' critical and analytical powers so that they can effectively plan and execute individual research/design/development projects
  • Provide a high level of flexibility in programme pattern and exit point
  • Provide students with an extensive choice of taught modules, in subjects for which the Department has an international and UK research reputation

Intended capabilities for MSc graduates:

  • Underpinning learning– know, understand and be able to apply the fundamental mathematical, scientific and engineering facts and principles that underpin space engineering.
  • Engineering problem solving - be able to analyse problems within the field of mobile and satellite communications and more broadly in electronic engineering and find solutions
  • Engineering tools - be able to use relevant workshop and laboratory tools and equipment, and have experience of using relevant task-specific software packages to perform engineering tasks
  • Technical expertise - know, understand and be able to use the basic mathematical, scientific and engineering facts and principles associated with the topics within space engineering.
  • Societal and environmental context - be aware of the societal and environmental context of his/her engineering activities
  • Employment context - be aware of commercial, industrial and employment-related practices and issues likely to affect his/her engineering activities
  • Research & development investigations - be able to carry out research-and- development investigations
  • Design - where relevant, be able to design electronic circuits and electronic/software products and systems

Technical characteristics of the pathway

This programme in Space Engineering aims to provide a high-level postgraduate qualification relating to the design of space missions using satellites. Study is taken to a high level, in both theory and practice, in the specialist areas of space physics, mechanics, orbits, and space-propulsion systems, as well as the system and electronic design of space vehicles.

This is a multi-disciplinary programme, and projects are often closely associated with ongoing space projects carried out by Surrey Satellite Technology, plc.

This is a large local company that builds satellites commercially and carries out industrially-sponsored research. Graduates from this programme are in demand in the UK and European Space Industries.

Global opportunities

We often give our students the opportunity to acquire international experience during their degrees by taking advantage of our exchange agreements with overseas universities.

In addition to the hugely enjoyable and satisfying experience, time spent abroad adds a distinctive element to your CV.



Read less
Engineering geological expertise is critical to all types of civil engineering projects such as tunnels, dams, mines, quarries, offshore platforms and wind farms. Read more

Why take this course?

Engineering geological expertise is critical to all types of civil engineering projects such as tunnels, dams, mines, quarries, offshore platforms and wind farms.

This course provides you with the advanced skills to carry out detailed investigations into surface and subsurface geology, identification of adverse ground conditions and the design of suitable remedial measures of engineering structures.

What will I experience?

On this course you can:

Be taught by internationally recognised experts with extensive expertise in engineering geology and geotechnics
Gain experience of environmental assessment techniques, plus a range of other skills such as mapping using GIS, GPS and remote sensing technologies
Go on numerous fieldtrips, both locally and overseas, to undergo specialist field training

What opportunities might it lead to?

This course is accredited by the Geological Society of London. It offers advanced professional and scientific training providing an accelerated route for you to attain Chartered Status, such as Chartered Geologist (CGeol) and Chartered Scientist (CSci) on graduation.

Here are some routes our graduates have pursued:

Aid organisations
Environmental organisations
Offshore work
Civil sector roles
Mining
Insurance companies

Module Details

You can opt to take this course in full-time or part-time mode.

The course is divided into two parts. The first part comprises of the lecture, workshop, practical and field work elements of the course, followed by a five-month independent research project. The course is a mixture of taught units and research project covering topics including site investigation, soil mechanics and rock mechanics, geotechnical engineering design, contaminated land, slope stability and rock engineering.

Here are the units you will study:

Rock and Soil Mechanics: These topics are integral to the role of an engineering geologist. You will gain an advanced understanding of the geo-mechanical behaviour of rocks and soils and how they behave under different geotechnical design scenarios. You will also develop key skills in the assessment, description and testing of geological materials in order to understand and quantify their behaviour, using current British and Eurocode standards.

Soil and Rock Engineering: This unit will give you an advanced understanding of engineering and design in soils and rock masses, including fundamental design principles associated with common geotechnical solutions encountered on engineering geological and civil engineering projects.

Contaminated Land and Groundwater: These are important considerations in all types of construction and so an understanding of both is essential. You will learn key techniques for the identification and assessment of contaminated land and groundwater resources in an engineering geological context.

Ground Models: You will train in the development of geological ground models and geomorphological terrain models within the content of engineering geological practice, essential parts of any investigation.

Ground Investigation Techniques: You will gain advanced experience of ground investigation using invasive techniques, in-situ tests and geophysical methods – essential to an engineering geologist's skill base.

Landslides and Slope Instability: On this unit you will develop an advanced understanding of landslide systems, types of slides in soils and rocks and methods for identification and numerical analysis.

Field Reconnaissance and Geomorphological Mapping: The techniques covered on this unit are integral to the course and an essential skill for any graduate wishing to work in this area. You will have fieldwork training in techniques such as geomorphological mapping and walk-over surveys combined with interpretation of remote sensing and aerial photography imagery.

Spatial Analysis and Remote Sensing: On this unit you will cover the key tools for terrain evaluation and be trained in the acquisition and interpretation of aerial photography and satellite imagery, and the integration and analysis of spatial datasets using GIS.

Independent Research Project: This give you the opportunity to undertake an original piece of research to academic or industrial standards, typically in collaboration with research staff in the department or external industry partners. In addition to submission of a thesis report, you also present the results of your project at the annual postgraduate conference held at the end of September.

Programme Assessment

The course provides a balanced structure of lectures, seminars, tutorials and workshops. You will learn through hands-on practical sessions designed to give you the skills in laboratory, computer and field techniques. The course also includes extensive field work designed to provide field mapping and data collection skills.

Assessment is varied, aimed at developing skills relevant to a range of working environments. Here’s how we assess your work:

Poster and oral presentations
Project reports
Literature reviews
Lab reports
Essays

Read less
Electrical and electronic engineering are the foundation of 21st century innovations. from digital communications to robotics systems, from sustainable energy to smart environments. Read more

Electrical and electronic engineering are the foundation of 21st century innovations: from digital communications to robotics systems, from sustainable energy to smart environments. With the MSc Electrical and Electronic Engineering from GCU, you'll develop the skills to work at the forefront of these exciting fields. Through discovery and invention, you can build a better future for humanity and contribute to the common good.

Accredited by the Institution of Engineering and Technology (IET), the programme also meets the Engineering Council's further learning requirements to become a Chartered Engineer. It offers advanced study and ideal preparation so you can enter the next stage of your career. You'll also find professional development opportunities for your continued growth as a successful engineer.

The curriculum offers a comprehensive exploration of electrical and electronic engineering, with particular emphasis on today's fast-growing fields of energy engineering and renewable technologies.

  • Expand your understanding of power systems and instrumentation systems
  • Investigate telecommunications systems and technologies
  • Solidify your personal skills and practise collaborating with a team
  • Connect your learning to the real world with industry case studies and on-the-ground assignments

The MSc Electrical and Electronic Engineering offers two options for specialisation.

  • Digital Systems and Telecommunications - Master communication technologies and systems
  • Mechatronics - Study the electronic control of mechanical and intelligent robotic systems

What you will study

In addition to the knowledge and understanding of electrical and electronic engineering the programme will provide an integrated understanding of power systems, instrumentation systems, telecommunications systems and business operations, reinforced with personal and inter-personal skills.

Electrical Power Systems

The module examines topics relating to electric power generation, transmission, distribution and utilisation. This will include examination of individual power system components such as generators, transformers, overhead lines, underground cables, switchgears and protection systems as well as analysis of load flow and system fault conditions which are required for power system design and operation.

Advanced Industrial Communication Systems

Aims to provide a comprehensive knowledge and understanding of modern industrial communications systems. The operation of a wide range of state-of-the-art advanced communications systems will be studied, e.g. SCADA, satellite systems, digital cellular mobile networks and wireless sensor networks.

Measurement Theories and Devices

The generalised approach to measurement theory and devices adopted in this module will allow students to become familiar with the characteristics of measurement systems in terms of the underlying principles. Students should find this methodology to be a considerable benefit to them when they apply their expertise to solving more complex industrial measurement problems.

Measurement Systems

A range of advanced measurement systems will be studied in depth. Sensors, signal processing, low-level signal measurements, noise reduction methods and appropriate measurement strategies will be applied to industrial and environmental applications. The influence of environmental factors and operation conditions will be considered in relation to the optimisation of the measurement system.

Energy, Audit and Asset Management

Focuses on techniques for auditing and managing the amount of energy used in a range of industrial processes. The module will provide an understanding of the strategies and procedures of energy audit and energy asset management. Using case studies throughout, the module will present energy audit, managing energy usage, factors affecting energy efficiency on plant, and cost benefit analysis of introducing alternative strategies and technologies.

Professional Practice

Focuses on two themes, the first aims to develop student moral autonomy within a professional technology framework. It will examine moral issues and moral decision processes through evaluative enquiry and application of professional codes of conduct specifically in relation to design, information technology and the Internet. The second theme enhances the student's knowledge of concepts, methods and application of technology and environmental management as applied to a new or existing venture.

Renewable Energy Technologies

Renewable energy is regarded as an integral part of a sustainable development strategy. This module concentrates on the renewable energy technologies most likely to succeed in the UK and other temperate countries, i.e. solar energy, energy from waste, wind, hydro and biomass.

Condition Monitoring

Aims to provide an understanding of both Mechanical and Electrical Condition monitoring and associated instrumentation requirements for successful condition monitoring. The main focus in Mechanical Condition Monitoring is vibration monitoring since this is the most popular method of determining the condition and diagnosing faults in rotational machines, although other techniques used in condition monitoring are also covered.

Accreditation

MSc Electrical and Electronic Engineering is accredited by the Institution of Engineering and Technology (IET) and its students meet the UK Engineering Council’s further learning requirements for registration as a Chartered Engineer.

Assessment methods

Students will be assessed via a combination of examinations, coursework, presentations,case study analysis, reports and the final dissertation.

Graduate prospects

Your degree and specialist knowledge will guarantee you excellent career opportunities around the world. You might find work in the electrical power industry, the renewable energy sector, the offshore industry, transport engineering, electronic engineering or telecommunications.



Read less
Electrical and electronic engineering are the foundation of 21st century innovations. from digital communications to robotics systems, from sustainable energy to smart environments. Read more

Electrical and electronic engineering are the foundation of 21st century innovations: from digital communications to robotics systems, from sustainable energy to smart environments. With the MSc Electrical and Electronic Engineering from GCU, you'll develop the skills to work at the forefront of these exciting fields. Through discovery and invention, you can build a better future for humanity and contribute to the common good.

Accredited by the Institution of Engineering and Technology (IET), the programme also meets the Engineering Council's further learning requirements to become a Chartered Engineer. It offers advanced study and ideal preparation so you can enter the next stage of your career. You'll also find professional development opportunities for your continued growth as a successful engineer.

The curriculum offers a comprehensive exploration of electrical and electronic engineering, with particular emphasis on today's fast-growing fields of energy engineering and renewable technologies.

  • Expand your understanding of power systems and instrumentation systems
  • Investigate telecommunications systems and technologies
  • Solidify your personal skills and practise collaborating with a team
  • Connect your learning to the real world with industry case studies and on-the-ground assignments

The MSc Electrical and Electronic Engineering offers two options for specialisation.

  • Digital Systems and Telecommunications - Master communication technologies and systems
  • Mechatronics - Study the electronic control of mechanical and intelligent robotic systems

What you will study

In addition to the knowledge and understanding of electrical and electronic engineering the programme will provide an integrated understanding of power systems, instrumentation systems, telecommunications systems and business operations, reinforced with personal and inter-personal skills.

Electrical Power Systems

The module examines topics relating to electric power generation, transmission, distribution and utilisation. This will include examination of individual power system components such as generators, transformers, overhead lines, underground cables, switchgears and protection systems as well as analysis of load flow and system fault conditions which are required for power system design and operation.

Advanced Industrial Communication Systems

Aims to provide a comprehensive knowledge and understanding of modern industrial communications systems. The operation of a wide range of state-of-the-art advanced communications systems will be studied, e.g. SCADA, satellite systems, digital cellular mobile networks and wireless sensor networks.

Measurement Theories and Devices

The generalised approach to measurement theory and devices adopted in this module will allow students to become familiar with the characteristics of measurement systems in terms of the underlying principles. Students should find this methodology to be a considerable benefit to them when they apply their expertise to solving more complex industrial measurement problems.

Measurement Systems

A range of advanced measurement systems will be studied in depth. Sensors, signal processing, low-level signal measurements, noise reduction methods and appropriate measurement strategies will be applied to industrial and environmental applications. The influence of environmental factors and operation conditions will be considered in relation to the optimisation of the measurement system.

Energy, Audit and Asset Management

Focuses on techniques for auditing and managing the amount of energy used in a range of industrial processes. The module will provide an understanding of the strategies and procedures of energy audit and energy asset management. Using case studies throughout, the module will present energy audit, managing energy usage, factors affecting energy efficiency on plant, and cost benefit analysis of introducing alternative strategies and technologies.

Professional Practice

Focuses on two themes, the first aims to develop student moral autonomy within a professional technology framework. It will examine moral issues and moral decision processes through evaluative enquiry and application of professional codes of conduct specifically in relation to design, information technology and the Internet. The second theme enhances the student's knowledge of concepts, methods and application of technology and environmental management as applied to a new or existing venture.

Renewable Energy Technologies

Renewable energy is regarded as an integral part of a sustainable development strategy. This module concentrates on the renewable energy technologies most likely to succeed in the UK and other temperate countries, i.e. solar energy, energy from waste, wind, hydro and biomass.

Condition Monitoring

Aims to provide an understanding of both Mechanical and Electrical Condition monitoring and associated instrumentation requirements for successful condition monitoring. The main focus in Mechanical Condition Monitoring is vibration monitoring since this is the most popular method of determining the condition and diagnosing faults in rotational machines, although other techniques used in condition monitoring are also covered.

Accreditation

MSc Electrical and Electronic Engineering is accredited by the Institution of Engineering and Technology (IET) and its students meet the UK Engineering Council’s further learning requirements for registration as a Chartered Engineer.

Assessment methods

Students will be assessed via a combination of examinations, coursework, presentations,case study analysis, reports and the final dissertation.

Graduate prospects

Your degree and specialist knowledge will guarantee you excellent career opportunities around the world. You might find work in the electrical power industry, the renewable energy sector, the offshore industry, transport engineering, electronic engineering or telecommunications.



Read less
This Master of Science programme, taught entirely in English, aims at preparing high level professionals that can deal with a variety of problems common to all development and resource exploitation plans. Read more

Mission and Goals

This Master of Science programme, taught entirely in English, aims at preparing high level professionals that can deal with a variety of problems common to all development and resource exploitation plans. Their expertise will range from the knowledge of modelling of land and ecological systems, to acquisition and analysis of relevant data, geo-referencing and geo-processing, to pollution abatement technologies and reclamation plans. Students following this programme may either specialize in Geomatics or Environmental Engineering with particular emphasis on sustainable development and water resources.

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

Career Opportunities

In addition to the classic professional opportunities for Environmental and Land Planning Engineering, studying Geomatic Engineering in depth allows to work in national or local bodies involved in cartography, land registries and collection of land data or in the aerospace and ICT industries involved in the management of territorial databases. On the other side, graduates with a deeper knowledge in Environmental Engineering can also found opportunities in the field of international relations, large multinational corporations and in non-governmental organizations.

Presentation

See http://www.polinternational.polimi.it/uploads/media/Environmental_and_Geomatic_Engineering_02.pdf
This Master of Science programme, taught entirely in English, aims at preparing high level professionals that can deal with a variety of problems common to all development and resource exploitation plans. Their expertise will range from the knowledge of modeling of land and ecological systems, to acquisition and analysis of relevant data, geo-referencing and geo-processing, to pollution abatement technologies and reclamation plans. Students will increase their understanding of the functioning of ecosystems, learn how to assess the local and global environmental impacts of human activities, and apply advanced methods, techniques and models to identify, describe, quantify and develop integrated systems to support environmental decision-makers. The programme is organized around two main topics: Geomatics or Environmental Engineering, with particular emphasis on sustainable development and water resources. The first specialization aims at creating experts in surveying, monitoring, representing the land shape and processes in terms of information systems, while the second provides the future engineers with a clear understanding of sustainability issues and of their application in the current professional activities.

The programme is taught in English.

Subjects

- Mandatory courses:
Modeling and Simulation, Statistical Analysis of Environmental Data, Natural Resources Management, Environmental and Natural Resources Economy and Geographic Information Systems

Eligible courses:
1. Geomatics
Remote Sensing, Image Analysis, Satellite Navigation and Monitoring; Geophysical Prospecting;

2. Environmental Engineering
Hydraulic Engineering and River Basin Reclamation, Environmental Technology, Engineering and Cooperation for Global Development and Energy for sustainable Development.

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

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

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

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This programme is suitable for recent graduates and engineers with experience of microelectronics who have good mathematical ability. Read more
This programme is suitable for recent graduates and engineers with experience of microelectronics who have good mathematical ability. It provides a thorough knowledge of the principles and techniques of this exciting field and has been developed in consultation with industry advisors to ensure it is relevant to today’s workplace.

Modules are block taught so can also be studied separately by working engineers as continuous professional development either to enhance their knowledge in particular subject fields or to widen their portfolio.

Core study areas include ASIC engineering, sensors and actuators, technology and verification of VLSI systems, embedded software development and an individual project.

Optional study areas include communication networks, information theory and coding, solar power, wind power, systems architecture, advanced FPGAs, DSP for software radio, advanced photovoltaics, mobile network technologies and advanced applications.

See the website http://www.lboro.ac.uk/study/postgraduate/programmes/departments/eese/electronic-electrical-engineering/

Programme modules

Compulsory Modules:
• ASIC Engineering
• Sensors and Actuators for Control
• Embedded Software Development
• Individual Project

Optional Modules (Choose five):
• Communication Networks
• Fundamentals of Digital Signal Processing
• Solar Power 1
• Wind Power 1
• Communications Channels
• DSP for Software Radio
• Imagineering
• Mobile Networks
• Advanced FPGAs
• Engineering Applications
• Systems Modelling for Control Engineering – new for 2015
• Radio Frequency and Microwave Integrated Circuit Design – new for 2015

Block-taught, individual modules are also highly suitable as CPD for professional engineers needing to fill a skills gap.

How you will learn

Compulsory modules provide a comprehensive understanding of modern microelectronics, embedded electronic systems, emerging technologies and their uses while the individual research project offers the chance to pursue a specialism in-depth. You’ll have access to advanced research knowledge and state of the art laboratories using industry standard software (Altera, Cadence, Mentor, Xilinx) so that you are prepared to enter a wide range of industry sectors on graduation.

- Assessment
Examinations are held in January and May, with coursework and group work assessments throughout the programme. The high practical content of this course is reflected in the inclusion of laboratory assessments and practical examinations. The individual research project is assessed by written report and viva voce in September.

Facilities

You’ll have access to laboratories, industry standard software (Altera, Cadence, Mentor Graphics, Xilinx) and hardware including equipment provided by Texas Instruments.

Careers and further study

Consultation with industry to craft the syllabus ensures that you’ll have an advantage in the job market. The in-depth knowledge acquired can be applied wherever embedded electronic systems are found including mobile phones (4/5G), acoustics, defence, medical instrumentation, radio and satellite communication and networked systems, control engineering, instrumentation, signal processing and telecommunications engineering.

Scholarships and bursaries

Scholarships and bursaries are available each year for UK/EU and international students who meet the criteria for award.

Why choose electronic, electrical and systems engineering at Loughborough?

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

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

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

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

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

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

Find out how to apply here http://www.lboro.ac.uk/study/postgraduate/programmes/departments/eese/electronic-electrical-engineering/

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On this course you gain the knowledge the skills you need to work as an engineer, building on your existing degree in science or technology. Read more

On this course you gain the knowledge the skills you need to work as an engineer, building on your existing degree in science or technology.

A rewarding career

Engineers apply scientific and technological principles to solve problems in a creative way. It’s a well-paid and rewarding career that is constantly changing with new developments in technology. And with a shortage of electrical and electronic engineers in the UK, your skills will be in demand.

Electrical engineers are at the forefront of many innovations in the way we live and work today. They design, produce and install systems which power and control a range of products and digital communications.

What you study

You can follow your interests to create the right programme of study for you. Initially, you take two modules in engineering principles. Then, with guidance from your course leader, you select from a range of technical modules covering topics including electrical and control engineering and electronic systems.

In addition to your technical modules, you also take an engineering management subject and participate in a multidisciplinary product development project with MSc students from a range of engineering specialisms. You develop an understanding of how engineering projects work and how they relate to the commercial world, as well as becoming part of our engineering community and learning to think like an engineer.

One third of your study will be an individual project and dissertation. You specialise in a technical area of your interest and carry out your own in-depth investigation into a particular problem. Where possible, this will be an industry-related problem.

Expertise

Many of our academic staff are actively involved in research. Examples of recent projects include • developing equipment to monitor the bone mineral density of young children for Sheffield Children's Hospital • developing palm-sized robots to enable firefighters to safely enter and negotiate hazards in burning buildings.

Course structure

Core modules

  • engineering principles
  • electrical and electronic engineering
  • international product development (group project)

Plus one of either

  • project and quality management

or

  • global supply chain and manufacturing strategy.

Options

Your remaining four modules are themed in the following subjects.

You can choose to specialise in one theme or a mix of both:

Electrical and Control Engineering

• electrical energy systems • efficient machines and electromagnetic applications • control of linear systems • industrial automation

Electronic Systems

• digital electronic systems design • mixed signal design • digital signal processing • microprocessor engineering

Assessment

Assessments will be a mix of coursework and exam, depending on the specific module studied.

Employability

You can work in areas such as • global telecommunications • consumer electronics • computer electronics • aerospace • automotive • railway • robotics • general manufacturing • water, gas and electricity supply.

You can specialise in the design of • computers • mobile phones • media streamers • satellite dishes • instrumentation and control systems • aeroplanes • military equipment • cars • electrical energy systems.

Our graduates have developed careers with companies including • BBC • Tata Steel • Emhart Glass • Sony Mobile Communications • Honeywell Control Systems • Motorola • Rolls-Royce • First ScotRail • Siemens • Vodafone.



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This course enables students to understand the fundamentals of information theory and apply appropriate performance and quality measures to engineer enhanced data communication systems. Read more
This course enables students to understand the fundamentals of information theory and apply appropriate performance and quality measures to engineer enhanced data communication systems.

Students design state-of-the-art networks using legacy as well as emerging optical and wireless technologies, developing the students’ ability to define and apply appropriate analytic, algorithmic and a mix of simulation and hardware tools for reliable data transfer.

Students will cover subject specific subjects such as Digital Mobile Communication Systems and Optical Communication Technologies alongside cohort taught subjects to develop their management skills and their employability.

The successful postgraduates of the course will acquire the knowledge and understanding, intellectual, practical and transferable skills necessary for the analysis and synthesis of problems in engineering and manufacturing through a combination of experimental, simulation, research methods and case studies. They can expect to gain work in a range of disciplines within a variety of industries from specialist technical roles to positions of management responsibility.

Why choose this course?

Students who undertake this course will gain knowledge and understanding of the advanced theoretical issues and their practical implementations that underlie recent developments in Communications and Information Engineering.

Students will be able to explore, explain the engineering challenges inherent in a variety of data communication applications.

Supported by the School which has over 25 years' experience of teaching electronic engineering and has established an excellent international reputation in this field.

We offer extensive lab facilities for engineering students, including the latest software packages.

Careers

Communications engineers prepare and maintain communications systems and the marketplace increasingly relies on highly advanced communications systems, so communications engineering is a valued field. Careers may be sought in telecommunications or related fields that use computer networking and satellite, digital TV, Internet or radio technology.

Graduates may therefore expect employment across a very wide range of engineering companies.

Teaching methods

Our enthusiastic staff is always looking for new ways to enhance your learning experience and over recent years, we have won national awards for our innovative teaching ideas. In addition, our staff are active in research and useful elements of it are reflected on the learning experience.

The School of Engineering and Technology has a reputation for innovation in teaching and learning, where nearly all MSc modules are delivered through a combination of traditional face-to-face teaching and backup tutorial's using the University's StudyNet web based facility. StudyNet allows students to access electronic teaching and learning resources, and conduct electronic discussions with staff and other students.

A heavy emphasis is placed on theory and practice, and the School of Engineering and Technology has a policy of using industrial standard software wherever possible.

Structure

Core Modules
-Broadband Networks and Data Communications
-Digital Mobile Communication Systems
-Information Theory and DSP in Communications
-MSc Project
-MSc Projects
-Multicast and Multimedia Networking
-Operations Management
-Operations Management
-Operations Research
-Operations Research
-Optical Communication Technologies
-Wireless, Mobile and Ad-hoc Networking

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This programme addresses the great shortage of skilled radio frequency (RF) and microwave engineers, and the growing demand for conceptually new wireless systems. Read more

This programme addresses the great shortage of skilled radio frequency (RF) and microwave engineers, and the growing demand for conceptually new wireless systems.

You will learn about a range of modern theories and techniques, accompanied by topics on wireless frequencies and sizes of RF and microwave devices.

This ranges from the lowest frequencies used in radio frequency identification (RFID) systems through to systems used at mm wave frequencies that can have applications in satellite communication systems and fifth generation wireless communication systems.

Theoretical concepts established in lectures are complemented by practical implementation in laboratory sessions, with direct experience of industry-standard computer-aided design (CAD) software.

Read about the experience of a previous student on this course, Uche Chukwumerije.

Programme structure

This programme is studied full-time over one academic year and part-time students must study at least two taught technical modules per academic year. It consists of eight taught modules and a project.

Example module listing

The following modules are indicative, reflecting the information available at the time of publication. Please note that not all modules described are compulsory and may be subject to teaching availability and/or student demand.

Academic support

We provide solid academic support through the taught modules and into the project period. You will be assigned a personal tutor with whom you can discuss both academic and general issues related to the programme.

When you move into the project phase of the programme, you will be assigned a project supervisor who you will meet, usually on a weekly basis, to discuss the progress of your project.

The individual taught modules also feature strong academic support, usually through a tutorial programme. All of the RF and microwave modules have tutorial sheets to support the lectures.

Although completing the tutorials is not part of the formal assessment, you have the option of using the tutorials to receive individual feedback on your progress in the modules.

Facilities and equipment

The combined facilities of the RF teaching laboratories and the Advanced Technology Institute provide MSc students with an exceptionally wide range of modern fabrication and measurement equipment.

Furthermore a wide variety of RF test and measurement facilities are available through Surrey Space Centre and the 5G Innovation Centre, which also involve work in the RF and microwave engineering domain.

Equipment includes access to CAD design tools, anechoic chamber, spectrum analysers, network analysers, wideband channel sounder, circuit etching and circuit testing.

Industrial and overseas links

The 5G Innovation Centre and Advanced Technology Institute within the Department have a range of active links with industry, both in the UK and overseas. During the past few years we have had students taking the MSc through the part-time route and completing their projects in industry.

Examples of industrial projects range from looking at new microwave measurement techniques at the National Physical Laboratory (NPL), to antenna design and construction at the Defence Science and Technology Laboratory (Dstl).

We have also sent students overseas to complete their projects, funded through the Erasmus scheme, which is a European programme that provides full financial support for students completing their project work at one of our partner universities in mainland Europe.

Students taking advantage of this opportunity not only enhance their CVs with a European perspective, but also produce excellent project dissertations.

Technical characteristics of the pathway

This programme in Microwave Engineering and Wireless Subsystem Designrf and microwavengineering provides detailed in-depth knowledge of theory and techniques applicable to radio frequency (RF) and microwave engineering.

The programme includes core modules in both RF and microwave covering all ranges of wireless frequencies and a number of application devices including radio frequency identification (RFID), broadcasting, satellite links, microwave ovens, printed and integrated microwave circuits.

Additional optional modules enable the student to apply the use of RF and microwave in subsystem design for either mobile communications, satellite communications, nanotechnology or for integration with optical communications.

The teaching material and projects are closely related to the research being carried out in the Department’s Advanced Technology Institute and the Institute for Communication Systems.

Global opportunities

We often give our students the opportunity to acquire international experience during their degrees by taking advantage of our exchange agreements with overseas universities.

In addition to the hugely enjoyable and satisfying experience, time spent abroad adds a distinctive element to your CV.



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Areas of research include, but are not limited to. evaluation of spacial heterogeneity for the design and layout of experimental sites. Read more
Areas of research include, but are not limited to: evaluation of spacial heterogeneity for the design and layout of experimental sites.
The course

This course builds on the Engineering Department’s long history of working closely with industry teaching students how to apply engineering science to industrial product design. Mechatronics is a multi-disciplinary field of engineering that combines with mechanical, electronic, computer, software, control and systems design engineering in the design and manufacture of useful products. It is an increasingly important discipline as most modern vehicles and machinery incorporate multiple mechatronic systems.

Some of the technologies that mechatronics encompasses include: robotics, vision systems, satellite navigation systems, communications technology, and biometric and other new advanced sensors. Introduction of these new technologies means that engineers cannot rely upon prior knowledge when designing machinery. As a consequence it has become normal practice for new highly technical equipment to be developed by specialist manufacturers, either through subcontract subsystem devolution or commercial partnership.

When developing new products, much of the work of the engineer involves the recombination or reapplication of previously un-combined technologies to solve new problems or enable new functionalities. Engineers therefore need to develop the greatest possible body of knowledge as a resource to call upon during the resolution of novel challenges in new or different environments.

This postgraduate programme builds upon students’ existing engineering skills and knowledge developed through prior education and focuses them into a more specific and applied area of study. This approach is designed to allow students to expand their applied knowledge and develop the necessary powers of analysis required to solve complex design problems. Learning largely takes place through a series of individual and group engineering projects intended to enable students to apply their existing academic skills and knowledge to the design, fabrication and testing of new products or systems. Where applicable, projects will be sponsored and supported by engineering companies and will focus on the development of mechatronic systems, machinery and equipment.

How will it benefit me?

This programme is designed for students with a strong academic background but limited industrial experience. It is intended to expedite the experiential development of these engineers through a series of industrially linked projects. Students will complete the course with a view to taking leading positions in manufacturing companies designing innovative machinery and equipment by employing new and emerging technologies to develop mechatronic systems, machinery and solutions.

Careers

This course provides an understanding of the practical application of engineering science and mathematics to the development of mechatronic systems. It is designed to aid students with good engineering qualifications, but limited applied industrial experience, learn the skills to take leading positions in manufacturing companies designing innovative machinery and equipment by employing new and emerging technologies to develop mechatronic systems, machinery and solutions.

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About the course. The course is designed for students who wish to develop an understanding and working knowledge of the principles and applications of a variety of surveying devices and techniques. Read more

About the course

The course is designed for students who wish to develop an understanding and working knowledge of the principles and applications of a variety of surveying devices and techniques.

Versions of this course have been running at The University of Nottingham in the UK for almost 20 years. This course runs entirely at The University of Nottingham Ningbo China (UNNC), providing students with the ability to appreciate and apply state-of-the-art engineering surveying techniques within a practical context. It includes the principles underpinning surveying, such as reference systems and geodesy, as well as the techniques and equipment used in engineering surveying, photogrammetry and satellite positioning systems such as GPS. UNNC is located in an excellent GNSS coverage area, from which both BeidouI+II/Compass and QZSS satellites can be observed.

In addition to the formal part of the course, we run practical classes that allow students to see and learn how to use and operate a very wide variety of state-of-the-art surveying equipment and software, including laser scanners, servo driven total stations, RTK and Network RTK GPS, digital and analogue photogrammetry, LiDAR, SAR and InSAR.

Students studying this course will be develop the ability to:

  • apply their skills directly within the surveying industry
  • react quickly to new technologies and innovations
  • communicate ideas effectively in written reports, verbally and through making presentations to groups
  • exercise original thought, as well as gain interpersonal, communication and professional skills 
  • plan and undertake an individual project

The course is accredited by the Royal Institution of Chartered Surveyors (RICS) and the Chartered Institution of Civil Engineering Surveyors (ICES).

Course structure and content

The course consists of 120 credits of taught modules along with a 60 credit major individual research-based project undertaken over the summer term. It is also available as a postgraduate diploma which covers the same taught modules, but does not include the research project. Please be aware modules are subject to change.

Modules

Autumn semester:

  • Analytical methods
  • Geodetic reference systems
  • Fundamentals of satellite positioning
  • Engineering surveying

Spring semester:

  • Advanced satellite positioning
  • Photogrammetry and remote measurement
  • Physical Geodesy

Individual project

Once you have completed the modules, you will undertake a supervised research project over the summer term. Students receive dedicated supervision from staff members. This is a key component of the degree, affording students the opportunity to conduct independent research which may be related to their future employment. 

It provides the student with an opportunity to undertake a substantial personal project appropriate to their interests. It will normally take the form of scientific investigation whether it involves experimentation or an extensive review of work already completed by others. Typically (but not exclusively) it will include the following:

  • project definition and aim (choice of subject is at the discretion of the convenor)
  • literature review
  • practical experimentation/investigation
  • critical analysis of findings
  • presentation of results

Career options for this degree

This degree offers career opportunities in a variety of careers such as Engineering Surveying in Private and Government Sectors (e.g., Construction, Deformation Monitoring, Utility Departments and Companies), GNSS Software Engineering, GNSS Receiver Sales and Marketing, Digital Mapping, 3D Modelling, Smart City Development, Consultancy.

All our graduates of the course found good relevant jobs within 6 months after graduation – 100% employment rate!!



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We have a wide range of testbeds available for projects, including wireless networking, wireless sensors, satellite networking, and security testbeds, future internet testbed and cloud infrastructure. Read more

We have a wide range of testbeds available for projects, including wireless networking, wireless sensors, satellite networking, and security testbeds, future internet testbed and cloud infrastructure.

We also have a wide range of software tools for assignments and project work, including OPNET, NS2/3, Matlab, C, C++ and various system simulators. Some projects can offer the opportunity to work with industry.

Read about the experience of a previous student on this course, Paulo Valente Klaine.

Programme structure

This programme is studied full-time over one academic year and part-time students must study at least two taught technical modules per academic year, until a total of eight is reached. It consists of eight taught modules and a standard project.

Example module listing

The following modules are indicative, reflecting the information available at the time of publication. Please note that not all modules described are compulsory and may be subject to teaching availability and/or student demand.

Educational aims of the programme

The taught postgraduate Degree Programmes of the Department are intended both to assist with professional career development within the relevant industry and, for a small number of students, to serve as a precursor to academic research.

Our philosophy is to integrate the acquisition of core engineering and scientific knowledge with the development of key practical skills (where relevant).

To fulfil these objectives, the programme aims to:

  • Attract well-qualified entrants, with a background in Electronic Engineering, Physical Sciences, Mathematics, Computing & Communications, from the UK, Europe and overseas
  • Provide participants with advanced knowledge, practical skills and understanding applicable to the MSc degree
  • Develop participants' understanding of the underlying science, engineering, and technology, and enhance their ability to relate this to industrial practice
  • Develop participants' critical and analytical powers so that they can effectively plan and execute individual research/design/development projects
  • Provide a high level of flexibility in programme pattern and exit point
  • Provide students with an extensive choice of taught modules, in subjects for which the Department has an international and UK research reputation

Intended capabilities for MSc graduates:

  • Underpinning learning– know, understand and be able to apply the fundamental mathematical, scientific and engineering facts and principles that underpin mobile and satellite communications
  • Engineering problem solving - be able to analyse problems within the field of mobile and satellite communications and more broadly in electronic engineering and find solutions
  • Engineering tools - be able to use relevant workshop and laboratory tools and equipment, and have experience of using relevant task-specific software packages to perform engineering tasks
  • Technical expertise - know, understand and be able to use the basic mathematical, scientific and engineering facts and principles associated with the topics within mobile and satellite communications
  • Societal and environmental context - be aware of the societal and environmental context of his/her engineering activities
  • Employment context - be aware of commercial, industrial and employment-related practices and issues likely to affect his/her engineering activities
  • Research & development investigations - be able to carry out research-and- development investigations
  • Design - where relevant, be able to design electronic circuits and electronic/software products and systems

Technical characteristics of the pathway

This programme in Mobile Communication Systems reflects the importance and ubiquity of mobile telephony and mobile data communications throughout the world.

Students will gain a detailed knowledge of the fundamentals and advanced concepts involved in communications and 3G/4G/5G mobile technology together with the principles, algorithms and protocols that underpin Internet-based mobile backbone networks.

This material is complemented by study in areas such as mobile applications and web services, mobile app software development, the Internet of Things, network management, and satellite communications.

The teaching material and projects are closely related to the research being carried out in the EE Department's Institute for Communications Research.

Global opportunities

We often give our students the opportunity to acquire international experience during their degrees by taking advantage of our exchange agreements with overseas universities.

In addition to the hugely enjoyable and satisfying experience, time spent abroad adds a distinctive element to your CV.



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