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Full Time MSc Degrees in Engineering, Stoke on Trent, United Kingdom

We have 11 Full Time MSc Degrees in Engineering, Stoke on Trent, United Kingdom

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Keele University School of Medicine
Distance from Stoke on Trent: 0 miles
The MSc in Biomedical Engineering at Keele is a multidisciplinary course that will prepare you for an exciting career across a wide range of areas of engineering in medicine, be that in academic or industrial research, the medical devices sector or in the clinical arena. Read more

Overview

The MSc in Biomedical Engineering at Keele is a multidisciplinary course that will prepare you for an exciting career across a wide range of areas of engineering in medicine, be that in academic or industrial research, the medical devices sector or in the clinical arena. The course is professionally accredited and suitable for people with both engineering and life science backgrounds, including medicine and subjects allied to medicine.

Course Director: Dr Ed Chadwick ()

Studying Biomedical Engineering at Keele

The course will cover the fundamentals of engineering in medicine, introduce you to the latest developments in medical technology, and expose you to the challenges of working with patients through clinical visits. Learning and teaching methods include lectures and demonstrations from medical and engineering specialists, practical classes using state-of-the-art facilities and seminars with leading national and international researchers.

Graduate destinations for our students could include: delivering non-clinical services and technology management in a hospital; designing, developing and manufacturing medical devices in the private sector; working for a governmental regulatory agency for healthcare services and products; undertaking further postgraduate study and research (PhD); pursuing a university-based, academic research career; or providing technical consultancy for marketing departments.

See the website https://www.keele.ac.uk/pgtcourses/biomed/

Course Accreditation by Professional Body

The course is accredited by the Institute for Physics and Engineering in Medicine, whose aims are to ensure that graduates of accredited programmes are equipped with the knowledge and skills for the biomedical engineering workplace, be that in industry, healthcare or academic environments. Accreditation gives you confidence that the course meets strict suitability and quality criteria for providing Masters-level education in this field.‌‌‌

About the department

Now delivered through the Keele Medical School and the Research Institute for Science and Technology in Medicine, the course dates as far back as 1999, when it was established in partnership with Biomedical Engineering and Medical Physics at the University Hospital. Most teaching now takes place in the Guy Hilton Research Centre, a dedicated research facility located on the hospital campus. The medical school is one of the top-ranked in the UK, and the research institute has an international reputation for world-leading research.

The centre was opened in 2006 and offers state-of-the-art equipment for translational research including newly-developed diagnostic instruments, advanced imaging modalities and additive manufacturing facilities. Its location adjacent to the university hospital ensures that students experience real-world patient care and the role that technology plays in that. Students also have access to advanced equipment for physiological measurement, motion analysis and functional assessment in other hospital and campus-based laboratories. The School embraces specialists working in UHNM and RJAH Orthopaedic Hospital Oswestry, covering key medical and surgical subspecialties.

The course runs alongside its sister course, the MSc in Cell and Tissue Engineering, and an EPSRC and MRC-funded Centre for Doctoral Training, ensuring a stimulating academic environment for students and many opportunities for engaging with further study and research.

Course Aims

The aim of the course is to provide multidisciplinary Masters level postgraduate training in Biomedical Engineering to prepare students for future employment in healthcare, industrial and academic environments. This involves building on existing undergraduate knowledge in basic science or engineering and applying it to core principles and current issues in medicine and healthcare.

Specifically, the objectives of the course are to:
- provide postgraduate-level education leading to professional careers in biomedical engineering in industry, academia and a wide range of healthcare establishments such as medical organisations, medical research institutions and hospitals;

- provide an opportunity for in-depth research into specialist and novel areas of biomedical and clinical engineering;

- expose students to practical work in a hospital environment with hands-on knowledge of patient care involving technological developments at the forefront of the field;

- introduce students to exciting new fields such as regenerative medicine and novel technologies for physiological monitoring and diagnostics.

Teaching and Learning Methods

The course is taught through subject-centred lectures and seminars, supported by tutorials and practical exercises. Collaborative learning and student-centred learning are also adopted giving widespread opportunity for group work and individual assignments. Students are required to conduct extensive independent study, and this is supported by full access to two libraries, online journal access and a suite of dedicated computers for exclusive use by MSc students on the course. In addition, students are supported by the guidance of a personal tutor within the department, as well as having access to university-wide support services. This includes English language support where appropriate.

Assessment

Modules will be assessed by a mixture of assessment methods, including lab reports, essays, and presentations, and final examination. This ensures the development of a range of transferrable employability skills such as time management and planning, written and verbal communication and numeracy as well as technical and subject-specific knowledge. The project dissertation forms a major component of the student’s assessed work.

Additional Costs

Apart from additional costs for text books, inter-library loans and potential overdue library fines we do not anticipate any additional costs for this postgraduate programme.

Find information on Scholarships here - http://www.keele.ac.uk/studentfunding/bursariesscholarships/

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Keele University School of Medicine
Distance from Stoke on Trent: 0 miles
If you have ever spent some time in hospital, you are probably unaware that you were the beneficiary of medical devices that have been designed and developed by Medical Engineering Designers. Read more

If you have ever spent some time in hospital, you are probably unaware that you were the beneficiary of medical devices that have been designed and developed by Medical Engineering Designers. Everything from the bed you lie on to the MRI scanner that shows your insides on a screen, to the blood pressure monitor, to the scalpel that cuts your skin is known as a Medical Device and will have had input from Medical Engineering Designers. Even if you have a blood pressure monitor at home, this is still a medical device and will have been designed by a Medical Engineering Designer. The aim of the MSc in Medical Engineering Design is to convert you into a Medical Engineering Designer so that you can work in this highly regulated design discipline.

The course is run by the School of Medicine (https://www.keele.ac.uk/medicine/) in collaboration with the Research Institute for Science and Technology in Medicine (https://www.keele.ac.uk/istm/).

Teaching takes place at the Guy Hilton Research Centre, a dedicated research facility located on the Royal Stoke University Hospital site, and also at the main University Campus. The School of Medicine is one of the top-ranked in the UK, and the research institute has an international reputation for world-leading research (https://www.keele.ac.uk/istm/newsandevents/istmnews2015/istmrefratingsmar2014.php) in medical engineering and healthcare technologies.

The Guy Hilton Research Centre offers state-of-the-art laboratories housing equipment for translational research including newly-developed diagnostic instruments, advanced imaging modalities and additive manufacturing facilities. Its location adjacent to the University Hospital ensures that students experience real-world patient care and the role that technology plays. Students also have access to advanced equipment for physiological measurement, motion analysis and functional assessment in other hospital and campus-based laboratories.

The School embraces specialists working in Royal Stoke University Hospital, County Hospital in Stafford and specialist Robert Jones and Agnes Hunt Orthopaedic Hospital in Oswestry. You therefore have the opportunity to specialise in any of the varied clinical disciplines offered at these hospitals.

Download the MSc Medical Engineering Design Leaflet (https://www.keele.ac.uk/media/keeleuniversity/fachealth/fachealthmed/postgraduate/MSc%20in%20Medical%20Engineering%20Design%20web.pdf)

The School also runs MSc courses in Biomedical Engineering (https://www.keele.ac.uk/pgtcourses/biomed/) and in Cell and Tissue Engineering (https://www.keele.ac.uk/pgtcourses/biomed/), and an EPSRC and MRC-funded Centre for Doctoral Training, ensuring a stimulating academic environment for students and many opportunities for engaging with further study and research.

As a postgraduate student at Keele not only will you be joining a vibrant undergraduate community you will also be part of Keele's celebrated postgraduate family (the first student union dedicated to postgraduate students in the country). For more information on postgraduate life at Keele follow this link to the Keele Postgraduate Association (the link is http://www.kpa.org.uk).

Between March and September 2017 the University will be holding a number of Postgraduate Open Afternoons (https://www.keele.ac.uk/visiting/postgraduateopenafternoons/) to give prospective students the opportunity to visit the campus and learn more about Keele and postgraduate life in general. Please visit the Postgraduate Open Afternoons web page for more information.

Entry requirements:

Because this is a “conversion” course you need not have an engineering degree to apply. You must have a STEM (Science, Technology, Engineering or Mathematics) based degree, but that could be anything from Biomedical Science, through Forensic Science, to Computer Science. Of course, if you have an engineering degree you can still apply.

We welcome applications with a first or second-class degree (or equivalent) in a STEM (Science, Technology, Engineering or Mathematics) discipline. We also welcome enquiries from people with other professional qualifications acceptable to the University.

We recommend applicants discuss their first degree with the course tutor before applying to ensure that this course meets personal aspirations.

For international applicants, an English language IELTS score of 6.5 is required.



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Keele University School of Medicine
Distance from Stoke on Trent: 0 miles
Located within a European Centre of Excellence for Tissue engineering, and based on Keele University’s local hospital campus, the MSc in Cell and Tissue Engineering provides support and development to enhance your career within this rapidly expanding field. Read more

Overview

Located within a European Centre of Excellence for Tissue engineering, and based on Keele University’s local hospital campus, the MSc in Cell and Tissue Engineering provides support and development to enhance your career within this rapidly expanding field. The multidisciplinary environment enables close interaction with leading academics and clinicians involved in cutting-edge, and clinically transformative research.

Course Director: Dr Paul Roach ()

Studying Cell and Tissue Engineering at Keele

Our MSc Cell and Tissue Engineering programme has tracked alongside the strongly emergent global Regenerative Medicine industry and will prepare you for an exciting future within a range of medical engineering areas, be that in academic or industrial research, medical materials, devices, or therapeutics sectors, or in the clinical arena. The modular structure to the course enables flexibility and personalisation to suit your career aspirations, build upon strengths and interests and develop new understanding in key topics. The selection of modules on offer is professionally accredited by the Institute for Physics and Engineering in Medicine.

Graduate destinations for our students could include: undertaking further postgraduate study and research (PhD); pursuing a university-based, academic research career; providing technical consultancy for marketing and sales departments within industry; working within biomedical, biomaterials, therapeutic and regenerative medicine industries or working for a governmental regulatory agency for healthcare services and products.

See the website https://www.keele.ac.uk/pgtcourses/cellandtissueengineering/

‌The course provides support from the basics of human anatomy and physiology, through to development of novel nanotechnologies for healthcare. Due to the teaching and research involvement of clinical academic staff within the department, there are exciting opportunities to be exposed to current clinical challenges and state-of-the-art developments. Clinical visits and specialist seminars are offered and students will be able to select dissertation projects that span fundamental research to clinical translation of technologies – a truly ‘bench to bedside’ approach.

Learning and teaching methods include lectures and demonstrations from medical and engineering specialists, practical classes using state-of-the-art facilities and seminars with leading national and international researchers. Full-time study will see the course completed in 12 months; part-time study will allow you to complete it over two years.

About the department

Now delivered through the Keele Medical School and the Research Institute for Science and Technology in Medicine, the course dates as far back as 1999, when it was established in partnership with Biomedical Engineering and Medical Physics at the University Hospital. Most teaching now takes place in the Guy Hilton Research Centre, a dedicated research facility located on the hospital campus. The medical school is one of the top-ranked in the UK, and the research institute has an international reputation for world-leading research.

The centre was opened in 2006 and offers state-of-the-art equipment for translational research including newly-developed diagnostic instruments, advanced imaging modalities and additive manufacturing facilities. Its location adjacent to the university hospital ensures that students experience real-world patient care and the role that technology plays in that. Students also have access to advanced equipment for physiological measurement, motion analysis and functional assessment in other hospital and campus-based laboratories. The School embraces specialists working in UHNM and RJAH Orthopaedic Hospital Oswestry, covering key medical and surgical subspecialties.

The course runs alongside its sister course, the MSc in Biomedical Engineering, and an EPSRC-MRC funded Centre for Doctoral Training, ensuring a stimulating academic environment for students and many opportunities for engaging with further study and research.

Course Content

The aim of the course is to provide multidisciplinary Masters level postgraduate training in Cell and Tissue Engineering to prepare students for future employment in healthcare, industrial and academic environments. This involves building on existing undergraduate knowledge in basic science or engineering and applying it to core principles and current issues in medicine and healthcare.

Specifically, the objectives of the course are to:
- provide postgraduate-level education leading to professional careers in Cell and Tissue Engineering in industry, academia and a wide range of healthcare establishments such as medical organisations, medical research institutions and hospitals;

- provide an opportunity for in-depth research into specialist and novel areas of Biomaterials, and Cell and Tissue Engineering;

- expose students to the clinically translational environment within an active medical research environment with hands-on practical ability and supporting knowledge of up-to-date technological developments at the forefront of the field;

- introduce students to exciting new fields such as regenerative medicine, nanotechnology and novel devices for physiological monitoring and diagnostics.

Teaching and Learning Methods

The course is taught through subject-centred lectures and seminars, supported by tutorials and practical exercises. Collaborative learning and student-centred learning are also adopted giving widespread opportunity for group work and individual assignments. Students are required to conduct extensive independent study, and this is supported by full access to two libraries, online journal access and a suite of dedicated computers for exclusive use by MSc students on the course. In addition, students are supported by the guidance of a personal tutor within the department, as well as having access to university-wide support services. This includes English language support where appropriate.

Assessment

Modules will be assessed by a mixture of assessment methods, including lab reports, essays, and presentations, and final examination. This ensures the development of a range of transferrable employability skills such as time management and planning, written and verbal communication and numeracy as well as technical and subject-specific knowledge. The project dissertation forms a major component of the student’s assessed work.

Additional Costs

Apart from additional costs for text books, inter-library loans and potential overdue library fines we do not anticipate any additional costs for this postgraduate programme.

Find information on Scholarships here - http://www.keele.ac.uk/studentfunding/bursariesscholarships/

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Staffordshire University Creative Arts and Engineering
Distance from Stoke on Trent: 0 miles
NOTE. Are you a student from outside the EU? If you are an International student we have designed a version of this award especially for you! It is called the Extended International Master in Aeronautical Engineering. Read more
NOTE: Are you a student from outside the EU? If you are an International student we have designed a version of this award especially for you! It is called the Extended International Master in Aeronautical Engineering. It includes an extra semester of preliminary study to prepare you for postgraduate learning in the UK. We strongly recommend that all international students take this option as it is proven to improve your chances of success. Take a look at this alternative course here.

About the Course A focus on the practical application of the advanced theories learnt. Familiarisation with a range of industry standard design and analysis software. The opportunity to undertake low cost gliding, with reduced price club membership for students. Good career prospects. The aerospace industry is one of the UK's most successful industrial sectors, with its involvement in major international project groups including Airbus, Rolls Royce, British Aerospace to name but a few. Not every university that teaches engineering includes Aeronautical Engineering in its portfolio, but Staffordshire University is proud to be running a new and innovative MSc award in this area which started September 2012.

The MSc in Aeronautical Engineering builds upon the success of the undergraduate Aeronautical programme which has been running at Staffordshire for over ten years. The MSc is an award for the graduate engineer (who will have usually studied a BEng(hons) in Mechanical or Aeronautical Engineering or equivalent, or possibly a BSc(hons) in Aeronautical Technology) and who wishes to expand and deepen their knowledge of aeronautical engineering.

The MSc covers a broad range of areas including fixed wing and rotary aircraft, subsonic and supersonic flight regimes, aircraft propulsion systems, aircraft control systems, materials, etc. As well as taught classes, students use our extensive range of laboratories which include industry standard design and analysis software, including Pro Engineer, Phoenix CFD, ANSYS FEA, etc.

Course content

Students study eight taught modules then undertake a research-based dissertation, the length of the course being about 12 months in total.

Modules studied include: ​​​
-Technical and Study Skills
-Research Methods and Project Management
-Control Systems for Aeronautics
-Structural Integrity
-Aircraft Propulsion Systems
-Advanced Aeronautics
-Advanced Vehicle Aerodynamics
-MSc Project the 60 credit dissertation module, student centred but with close staff guidance.

Options include:
-MSc Project by Distance Learning (as an alternative to the MSc Project)
-Advanced Engineering Materials
-Technical Paper Authoring
-Industrial Responsibility

Employment opportunities

It is envisaged that graduates from the MSc in Aeronautical Engineering will be in a position to apply for a large range of technical, engineering, analytical, operation or management jobs within the aerospace and airline industries.

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Staffordshire University Creative Arts and Engineering
Distance from Stoke on Trent: 0 miles
The MSc course in Autosport Engineering covers the latest state of the art computer based analysis and design techniques used in the automotive industry. Read more
The MSc course in Autosport Engineering covers the latest state of the art computer based analysis and design techniques used in the automotive industry. The course has been developed in conjunction with the Automotive Industry and will provide the graduate with an indepth insight into the key technological areas that are driving automotive engineering design.

Students gain a deep understanding of the engineering principles that affect all aspects of vehicle performance including engine, suspension and aerodynamics. The course is based around the use of industry standard engineering software and hardware provided by our partners. The student will gain an in depth understanding of PTC CREO, Cambridge Engineering Selector, ANSYS FEA, Cham Phoenics CFD, Boothroyd Dewhurst DFMA software and will gain hands on experience of related hardware such as Minolta Vi910 laser scanner, TESA coordinate measuring machine, ZCorporation and Startasys rapid prototyping, KRYLE 3 Axis Machining Centre and Beavor Turning Centre, Lister Petter Diesel engine dyno, Race Technology real time data acquisition.

Good laboratory support including a design studio with over 70 Design Workstations, Manufacturing facilities including CNC machining and rapid prototyping systems, and fully equipped automotive workshop. A placement opportunity of up to 12 months is designed as an option within the course.

Course content

The course consists of 8 taught modules plus a major personal project leading to a written thesis. The taught modules cover the broad range of activities involved in vehicle design. You will study topics such as solid and surface modelling, rapid prototyping, Finite Element Analysis, advanced engine design and aerodynamics. The subject area of your final thesis can be selected to suit your own aspirations and interests. You will be assigned a supervisor with whom you will work closely to develop an academically challenging portfolio of work. The focus of this project will determine whether you will opt for the title of MSc Automotive or MSc Autosport.

Core modules are:
-Research Methods & Project Management
-Design Technologies for Master
-Structural Integrity
-Advanced Engine Design
-Advanced Vehicle Aerodynamics
-Advanced Vehicle Dynamics
-Control Systems
-Project

Option Modules are:
-Applied Structural Integrity
-Sustainable Design & Manufacture
-Advanced Engineering Materials
-Industrial Placement MSc Engineering Handbook

Employment opportunities

Upon graduation you will be ideally placed to work in an automotive engineering company at a senior level working towards Chartered (CEng) status. The course also gives a good grounding in research techniques which could allow you to continue your personal research interests to PhD level.

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Staffordshire University Creative Arts and Engineering
Distance from Stoke on Trent: 0 miles
NOTE Are you a student from outside the EU? If you are an international student we have designed a version of this award especially for you! It is called the Extended International Master in Mechanical Engineering. Read more
NOTE Are you a student from outside the EU? If you are an international student we have designed a version of this award especially for you! It is called the Extended International Master in Mechanical Engineering. It includes an extra semester of preliminary study to prepare you for postgraduate learning in the UK. We strongly recommend that all international students take this option as it is proven to improve your chances of success. Take a look at this alternative course here.

Engineering is a major wealth creator for the UK and many other economies worldwide. Highly qualified engineers command a high salary and are much sought after. This course will provide you with significant skills in the major engineering functions allowing you to work in a senior technical or project management role within industry.

Course content

The course consists of 8 taught modules plus a major personal project leading to a written thesis. The taught modules cover the broad range of activities involved in designing and validating new products and machinery. You will study topics such as solid and surface modelling, rapid prototyping, Finite Element Analysis, advanced materials and thermodynamics. The subject area of your final thesis can be selected to suit your own aspirations and interests. You will be assigned a supervisor with whom you will work closely to develop an academically challenging portfolio of work.

Core modules are:
-Research Methods & Project Management
-Design Technologies for Masters
-Energy Management
-Structural Integrity
-Advanced Engineering Materials
-Applied Structural Integrity
-MSc

Project Option Modules are:
-Industrial Robotics & Control
-Control System
-Sustainable Design & Manufacture
-Industrial Placement

This course can be completed within 1 year. However this timescale is dependent on students starting the course in September, passing all modules, undertaking their project during the summer semester and experiencing no other delays (such as health issues). Many students choose to delay their project start and enjoy a well-deserved summer break to ‘re-charge their batteries’ which also has academic benefits. In this case a more realistic duration is 15 months.

Accreditation

Accredited by the Institute of Mechanical Engineers and the Institution of Engineering and Technology on behalf of the Engineering Council (partial CEng). The MSc will meet, in part, the exemplifying academic benchmark requirements for registration as a Chartered Engineer. Accredited MSc graduates who also have a BEng(Hons) accredited for CEng will be able to show that they have satisfied the educational base for CEng registration.

Employment opportunities

Upon graduation you will be ideally placed to work in a manufacturing or engineering company at a senior level working towards Chartered (CEng) status. If you prefer the course also gives a good grounding in research techniques which could allow you to continue your personal research interests to PhD level.

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Staffordshire University Creative Arts and Engineering
Distance from Stoke on Trent: 0 miles
NOTE Are you a student from outside the EU?. If you are an International student we have designed a version of this award especially for you! It is called the Extended International Master in Automotive Engineering. Read more
NOTE Are you a student from outside the EU?

If you are an International student we have designed a version of this award especially for you! It is called the Extended International Master in Automotive Engineering. It includes an extra semester of preliminary study to prepare you for postgraduate learning in the UK. We strongly recommend that all international students take this option as it is proven to improve your chances of success. Take a look at this alternative course here.

The Automotive courses are based around the use of industry standard engineering software and hardware provided by our partners. The student will gain an in depth understanding of Pro Engineer Wildfire, Alias Auto Studio, Cambridge Engineering Selector, ANSYS FEA, Cham Phoenics CFD, Boothroyd Dewhurst DFMA software and will gain hands on experience of related hardware such as Minolta Vi910 laser scanner, TESA coordinate measuring machine, ZCorporation and Startasys rapid prototyping, KRYLE 3 Axis Machining Centre and Beavor Turning Centre, Lister Petter Diesel engine dyno, Race Technology real time data acquisition.

This virtual design and analysis approach is backed up by experimental analysis on real vehicles which will be supported by partners such as James Watt Automotive who have a wealth of experience in developing and running vehicles for motorsport.

Course content

The course consists of 8 taught modules plus a major personal project leading to a written thesis. The taught modules cover the broad range of activities involved in vehicle design. You will study topics such as solid and surface modelling, rapid prototyping, Finite Element Analysis, advanced engine design and aerodynamics. The subject area of your final thesis can be selected to suit your own aspirations and interests. You will be assigned a supervisor with whom you will work closely to develop an academically challenging portfolio of work. The focus of this project will determine whether you will opt for the title of MSc Automotive or MSc Autosport.

Core modules are:
-Research Methods & Project Management
-Design Technologies for Master
-Structural Integrity
-Advanced Engine Design
-Advanced Vehicle Aerodynamics
-Advanced Vehicle Dynamics
-Control Systems
-Project

Option Modules are:
-Applied Structural Integrity
-Sustainable Design & Manufacture
-Advanced Engineering Materials
-Industrial Placement MSc Engineering Handbook

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Staffordshire University Creative Arts and Engineering
Distance from Stoke on Trent: 0 miles
NOTE Are you a student from outside the EU? If you are an International student we have designed a version of this award especially for you! It is called the Extended International Master in Electronic Engineering. Read more
NOTE Are you a student from outside the EU? If you are an International student we have designed a version of this award especially for you! It is called the Extended International Master in Electronic Engineering. It includes an extra semester of preliminary study to prepare you for postgraduate learning in the UK. We strongly recommend that all international students take this option as it is proven to improve your chances of success. Take a look at this alternative course here.

About this course:
The course provides coherent and up to date coverage of Electronic Engineering with modules in Microelectronic Systems, VLSI, Digital Signal Processing,Research Methods, Embedded Systems,Analogue and Digital Electronics and Telecommunications. The approach spans specification and design to realisation, with particular emphasis on the application of industry standard CAD tools and DSP devices to develop solutions to practical engineering problems.

Course content

The course consists of a taught programme followed by an individual project. The taught programme is based on eight modules. Normally these modules are taken over two semesters for the full time route. The individual project is then studied over a further semester to complete the Masters Award.

Core modules are:
-Research Methods & Project Management
-Photovoltaic Technology
-Digital Electronic Systems
-Digital Signal Processing
-MSc Project
-Embedded Real Time Systems
-Telecommunications

Option Modules are:
-Technical Paper Authoring
-Optical Fibre Communication Systems
-Control Systems
-Wireless Navigation Systems

Semester 1 runs from September to January and Semester 2 from February to June. Study of the MSc normally commences in September. The possibility of an optional industrial placement either between the taught programme and the individual project is also available which may involve working in another European country.

Employment opportunities

Future option for graduates include employment in local, national and international industries normally initially in Research and Development roles although many progress to management positions. Alternatively graduates may choose to pursue further academic qualifications and register for a PhD programme.

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Staffordshire University Creative Arts and Engineering
Distance from Stoke on Trent: 0 miles
NOTE Are you a student from outside the EU?. If you are an International student we have designed a version of this award especially for you! It is called the Extended International Master in Electrical Engineering. Read more
NOTE Are you a student from outside the EU?
If you are an International student we have designed a version of this award especially for you! It is called the Extended International Master in Electrical Engineering. It includes an extra semester of preliminary study to prepare you for postgraduate learning in the UK. We strongly recommend that all international students take this option as it is proven to improve your chances of success. Take a look at this alternative course here.

About this course
The modern power system is evolving with increasing use of power electronics, integration of renewable sources such as wind and solar development of embedded generation and microgrids. The MSc Electrical Engineering award is designed to produce engineers who are capable of engineering such a system. .

Core modules are:
-Research Methods & Project Management
-Power Electronics in Electrical Utility Systems
-Advanced Power Systems Analysis
-Power System Protection
-Flexible AC Transmission Systems and Custom Power
-MSc Project

Option Modules are:​
-Energy Management
-Control Systems
-Photovoltaic Technology

Course content

The theme of the award is Power Electronics in Electrical supply industry. The module content and the award structure are designed so that this theme permeates through the award. The key modules, which have industrial input are "Power Electronics in Electric Utility Systems" , "Flexible AC Transmission systems" and "Power System Protection" . The option modules such as Energy Management and Control systems provide the students with the additional knowledge and skills for the formation of a true power electronics engineer. You will study 4 modules in the first semester.

In the second semester you will study 4 further modules. Upon successful completion of the project you will be awarded the MSc. Your study length can be variable depending on how much time you spend in industry which could include vacation work.

Employment opportunities

Career prospects are excellent. There is a severe shortage of Electrical Engineers worldwide. In particular the renewable energy sector is expanding and it is predicted that 1.5 million jobs will be available worldwide. The worldwide investment in renewable energy was $270 billion in 2014 according to UNEP's 9th "Global Trends in Renewable Energy Investment 2015. Best students are being offered jobs even before they complete the award.

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Staffordshire University Creative Arts and Engineering
Distance from Stoke on Trent: 0 miles
NOTE Are you a student from outside the EU? If you are an international student we have designed a version of this award especially for you! It is called the Extended International Master in Telecommunication Engineering. Read more
NOTE Are you a student from outside the EU? If you are an international student we have designed a version of this award especially for you! It is called the Extended International Master in Telecommunication Engineering. It includes an extra semester of preliminary study to prepare you for postgraduate learning in the UK. We strongly recommend that all international students take this option as it is proven to improve your chances of success.

About this Course Telecommunication engineering encompasses the design and optimisation of communication networks for voice, data and multimedia applications. This award will provide students with an indepth knowledge and skills of computer communication, telecommunication networks, project management and research methods. This award aims to produce postgraduates with the knowledge and skills to enable them to enhance their career opportunities, which is relevant to the fast paced changing needs of the telecommunications and related industries.

Course content

The MSc in Telecommunication Engineering will give you a deep understanding of the principles of Telecommunication Systems

Modules Offered: Teaching Block 1
-Digital Signal Processing
-Cellular Network Planning Principles
-Voice and Data over Broadband Network
-Wireless Sensor Networks & IOT: Principles and Practices
-Digital Electronic Systems

Teaching Block 2
-Telecommunications
-Wireless Navigation Systems
-Optical Fibre Communication Systems
-Research Methods and Project Management

Teaching Block 3
-MSc Project

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Staffordshire University Creative Arts and Engineering
Distance from Stoke on Trent: 0 miles
Mechatronics is a unique study area that integrates mechanical, electronic and control engineering to create the complex systems that underpin modern automated processes. Read more
Mechatronics is a unique study area that integrates mechanical, electronic and control engineering to create the complex systems that underpin modern automated processes. The course provides coherent and up to date coverage of Mechatronics with specialist modules available in Mechanical, Electronic and Robotics areas. The approach spans specification and design to realisation, with particular emphasis on the application of industry standard CAD tools and DSP devices to develop solutions to practical engineering problems.

NOTE Are you a student from outside the EU? If you are we have designed a version of this award especially for you! It is called the Extended International Master in Mechatronics. It includes an extra semester of preliminary study to prepare you for postgraduate learning in the UK. We strongly recommend that all international students take this option as it is proven to improve your chances of success.

Course content

The course consists of a taught programme followed by an individual project. The taught programme is based on eight modules. Normally these modules are taken over two semesters for the full time route. The individual project is then studied over a further semester to complete the Masters Award.

Semester 1 runs from September to January and Semester 2 from February to June. Study of the MSc normally commences in September. This course has an industrial placement route.

Core modules are:
-Design Technologies for Master
-Research Methods & Project Management
-Embedded Real Time Systems
-MSc Project

Option Modules are:
-Energy Management
-Photovoltaic Technology
-Digital Electronic Systems
-Digital Signal Processing
-Applied Structural Integrity
-Structural Integrity
-Control Systems
-Advanced Engineering Materials
-Sustainable Design & Manufacture

“This course can be completed within 1 year. However this timescale is dependent on students starting the course in September, passing all modules, undertaking their project during the summer semester and experiencing no other delays (such as health issues). Many students choose to delay their project start and enjoy a well-deserved summer break to ‘re-charge their batteries’ which also has academic benefits. In this case a more realistic duration is 15 months for September starters and 18 months for January starters.”

Employment opportunities

Future option for graduates include employment in local, national and international industries normally initially in Research and Development roles although many progress to management positions. Alternatively graduates may choose to pursue further academic qualifications and register for a PhD programme.

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