• University of Edinburgh Featured Masters Courses
  • Northumbria University Featured Masters Courses
  • University of Bristol Featured Masters Courses
  • University of Leeds Featured Masters Courses
  • Aberystwyth University Featured Masters Courses
  • University of Derby Online Learning Featured Masters Courses
  • Jacobs University Bremen gGmbH Featured Masters Courses

Postgrad LIVE! Study Fair

Birmingham | Bristol | Sheffield | Liverpool | Edinburgh

Nottingham Trent University Featured Masters Courses
Nottingham Trent University Featured Masters Courses
University of Cambridge Featured Masters Courses
Durham University Featured Masters Courses
University of Leeds Featured Masters Courses
"elec"×
0 miles

Masters Degrees (Elec)

We have 6 Masters Degrees (Elec)

  • "elec" ×
  • clear all
Showing 1 to 6 of 6
Order by 
We offer research programmes in a variety of areas based on the work being carried out by our Research Centres and groups (http://www.bath.ac.uk/elec-eng/research/index.html). Read more
We offer research programmes in a variety of areas based on the work being carried out by our Research Centres and groups (http://www.bath.ac.uk/elec-eng/research/index.html).

Our philosophy

The Department of Electronic & Electrical Engineering (http://www.bath.ac.uk/elec-eng/index.html) is in the vanguard of progress in a fast-moving discipline. It offers a broad spectrum of research expertise supported by state-of-the-art facilities.

Its international reputation reflects substantial levels of research income and journal publication, and it offers outstanding opportunities in postgraduate research.

The dissemination of research findings is seen as a vital component of the research process and graduate students are encouraged to prepare papers for publication as part of their research training.

Our applicants

We encourage a wide range of interests. Academic staff are always open to ideas which extend existing work or introduce new topics to their existing subject areas.

Successful applicants are welcomed very much as junior academic colleagues rather than students, and are expected to play a full and professional role in contributing to the Department’s objective of international academic excellence.

Visit the website http://www.bath.ac.uk/study/pg/programmes/elec-elec-engi-mphi/

Structure

The MPhil programme combines taught research training and applied research practice. Candidates join the Department as a member of the Research Centre in which they initially have a broad research interest and that will have overseen their acceptance into the Department.

Candidates are expected to carry out supervised research at the leading edge of their chosen subject, which must then be written up as a substantial thesis.

International students

Please see the International students website (http://www.bath.ac.uk/study/international/) for details of entry requirements based on qualifications from your country.

All non-native speakers of English are required to have passed English language tests.

If you need to develop your English language skills, the University’s Academic Skills Centre (http://www.bath.ac.uk/asc/) offers a number of courses.

About the department

The Department of Electronic & Electrical Engineering offers a broad spectrum of research expertise supported by state-of-the-art facilities. Its international reputation reflects substantial levels of research income and journal publication, and it offers outstanding opportunities in postgraduate research.

91% of our research activity was graded as either world-leading or internationally excellent in the Research Excellence Framework 2014 (http://www.bath.ac.uk/research/performance/).

- Postgraduate facilities:
The postgraduate laboratories are well-equipped with state-of-the-art equipment and instrumentation. Postgraduate facilities include PCs and powerful workstations which also give direct and ready access to the University’s central computer system and the internet. Additional specialist research facilities are available within the department’s three research centres.

Main areas of research

Electronic and electrical engineering research is essential in the modern technological society and our department does much significant work in this area.

We collaborate proactively with other departments on many projects. We also collaborate extensively with leading industries and educational establishments around the world.

Research Centres:
Many internationally-recognised research activities are undertaken by our three interdisciplinary research centres: the Centre for Space Atmospheric & Oceanic Science (http://www.bath.ac.uk/elec-eng/research/csaos/), the Centre for Advanced Sensor Technology (http://www.bath.ac.uk/elec-eng/research/cast/) and the Centre for Sustainable Power Distribution (http://www.bath.ac.uk/elec-eng/research/cspd/). Other research work includes the EPSRC funded Invert Centre (http://www.bath.ac.uk/elec-eng/invert/) for Imaging Science and additional research units.

We actively promote translation of our research into our teaching, with all taught postgraduate programmes including a detailed research project.

Find out how to apply here - http://www.bath.ac.uk/engineering/graduate-school/research-programmes/how-to-apply/index.html

Read less
The Master of Applied Science (MAppSc) is a 180-point, coursework postgraduate degree. A candidate would normally be a graduate but the degree is also open to those with other relevant qualifications. Read more

The Master of Applied Science (MAppSc) is a 180-point, coursework postgraduate degree. A candidate would normally be a graduate but the degree is also open to those with other relevant qualifications.

The MAppSc is designed for students who wish to pursue an interdisciplinary programme of study underpinned by science that delivers versatile skills relevant to multiple end-users. Optional paths are available that enphasize commercialisation, workplace-based projects or independent study.

The MAppSc can be completed in 12 months or in stages, providing flexibility for recent graduates and those currently employed.

Subject areas

View the list of subjects offered for the Master of Science (MSc) and the Master of Applied Science (MAppSc).

Structure of the Programme

The programme of study:

-shall consist of approved papers at 400-level or higher worth at least 180 points, selected from the papers specified in Science Schedule D for the Master of Applied Science subject concerned, and including at least one of APPS 596-598

-shall normally include papers from more than one subject.

-may, with the approval of the Head of Department or Course Director concerned, include papers worth up to 60 points from 400- and 500-level papers other than those specified in Schedule D.

-A candidate who has completed the requirements for the Postgraduate Certificate or the Postgraduate Diploma in Applied Science shall be exempted from those papers in the programme for the degree which have previously been passed for the certificate or diploma.



Read less
The MSc in Mechatronics is an integration of Electrical and Mechanical Engineering. It has been specifically designed to fulfil the needs of modern industry requiring knowledge in both fields and incorporates a significant input from industry to complement its academic foundations. Read more
The MSc in Mechatronics is an integration of Electrical and Mechanical Engineering. It has been specifically designed to fulfil the needs of modern industry requiring knowledge in both fields and incorporates a significant input from industry to complement its academic foundations.

The course specialises in enabling students to produce mechatronic components which increase performance and energy efficiency, as sought after by industries worldwide.

It will not only help prepare you for an exciting career in the industry, but it will also help prepare you to continue your studies onto a Doctor of Philosophy research programme.

Many distinction-level graduates from this programme stay on for a PhD, often funded in part by the University of Bath.

Learning outcomes

By studying for our MSc in Mechatronics you will learn to:

- implement the concepts of mechatronics design principles to the solution of complex multi-physics engineering systems
- apply artificial intelligence and modern control and computer engineering techniques to improve the performance of modern equipments and devices

Visit the website http://www.bath.ac.uk/engineering/graduate-school/taught-programmes/mechatronics/index.html

Collaborative working

The programme includes traditionally taught subject-specific units and business and group-orientated modular work. These offer you the chance to gain experience in design, project management and creativity, while working with students from other subjects.

You will complete your MSc through an individual research project under the supervision of two supervisors; one from the Department of Electronic & Electrical Engineering (http://www.bath.ac.uk/elec-eng/) and one from Mechanical Engineering (http://www.bath.ac.uk/mech-eng/), assigned to one of our leading research centres (http://www.bath.ac.uk/engineering/research/index.html).

- Group project work
In semester 2 you undertake a cross-disciplinary group activity for your professional development, simulating a typical industrial work situation.

- Individual project work
In the final semester, you undertake an individual research project directly related to key current research at the University, often commissioned by industry.

Structure

See programme catalogue (http://www.bath.ac.uk/catalogues/2015-2016/me/me-proglist-pg.html#H) for more detail on individual units.

Semester 1 (October-January):
The first semester covers the fundamental principles of computational artificial intelligence, integrated engineering control techniques and mechatronic systems modelling and simulation.

- Five taught units
- Includes coursework involving laboratory or small project sessions
- Typically each unit consists of 22 hours of lectures, may involve a number of hours of tutorials/exercises and laboratory activity and approximately 70 hours of private study (report writing, laboratory results processing and revision for examinations)

Further advanced options will give you an in depth knowledge of how electrical and mechanical engineering can be integrated to effect state of the art technologies.

Semester 2 (February-May):
In Semester 2 you will study both technical specialist units and project-based units. You will develop your professional understanding of engineering in a research and design context. You will gain analytical and team working skills to enable you to deal with the open-ended tasks that typically arise in practice in present-day engineering.

- The semester aims to develop your professional understanding of engineering in a business environment and is taught by academic staff with extensive experience in industry
- Group projects in which students work in a multi-disciplinary team to solve a conceptual structural engineering design problem, just as an industrial design team would operate
- Individual project preliminary work and engineering project management units

Summer/Dissertation Period (June-September):
- Individual project leading to MSc dissertation, done under the supervision of two supervisors, one from the Department of Electronic & Electrical Engineering and one from Mechanical Engineering

- Depending on the chosen area of interest, the individual project may involve theoretical and/or experimental activities; for both such activities students can use the department computer suites and well-equipped and newly refurbished laboratories for experimental work. The individual projects are generally carried out under the supervision of a member of academic staff. A number of industrially-based projects are available to students

- Examples of typical projects include the design and control of autonomous robots; undersea tidal wave power generators; and the design and control of high speed mechanisms.

Subjects covered

- Computational intelligence
- Control engineering
- Engineering systems simulation
- Power systems control
- Professional skills for engineering practice
- Signals & information

Career Options

Graduates with knowledge and training in both electrical and mechanical engineering are very much in demand in aerospace, automotive and manufacturing industries.

More and more of the hydraulic and mechanical aspects of these industries are being replaced by mechatronics components to reduce weight and increase performance and energy efficiency.

The career opportunities in the UK and worldwide are very significant. Jobs our recent graduates have secured include:

Product Research Development Engineer, KTP Associate, University of Bath, UK
Project Manager, Guandong Best Control Technology, PR China
Software Engineer, DIAGNOS, UK
Engineer, MAN Diesel & Turbo, USA

About the department

Bath has a strong tradition of achievement in mechanical engineering research and education.

We are proud of our research record: 89% of our research was graded as either world-leading or internationally excellent in the Research Excellence Framework 2014, placing us 10th in the UK for our submission to the Aeronautical, Mechanical, Chemical and Manufacturing Engineering.

We offer taught MSc students the chance to carry out projects within outstanding research groupings.

Our research impact is wide and we are dedicated to working with industry to find innovative solutions to problems that affect all areas of society.

We are consistently ranked among the UK’s top 10 mechanical engineering departments in the annual league tables.

We believe in producing leaders, not just engineers.

We will give you the edge over your competitors by teaching you how technology fits into commercial settings. You will not only have access to cutting edge science and technology, we will also provide you with the skills you need to manage a workforce in demanding business environments.

For further information visit our departmental website (http://www.bath.ac.uk/mech-eng/pgt/).

Find out how to apply here - http://www.bath.ac.uk/study/pg/apply/

Read less
The Master of Science (MSc) is a two-year degree which encompasses both coursework and research. The first year involves mainly coursework and preliminary research preparation. Read more

The Master of Science (MSc) is a two-year degree which encompasses both coursework and research. The first year involves mainly coursework and preliminary research preparation. Students will have the opportunity to contribute to existing fields of research, or to begin to develop new areas.

The MSc can be studied in any of the subjects listed below, and may be taken by a combination of coursework and thesis, or by thesis only. Students who have a Bachelor's degree will complete the MSc by papers and thesis (at least two years of full-time study). Students who have an Honours degree or postgraduate diploma can complete the degree by thesis only (minimum of one year of study).

Subject areas

View the list of subjects offered for the Master of Science (MSc) and the Master of Applied Science (MAppSc).

Structure of the Programme

The degree may be awarded in any of the subjects listed above. With the approval of the Pro-Vice-Chancellor (Sciences) the degree may be awarded in a subject not listed above.

The programme of study shall be as prescribed for the subject concerned.

A candidate whose qualification for entry to the programme is the degree of Bachelor of Science with Honours or the Postgraduate Diploma in Science or equivalent may achieve the degree after a minimum of one year of further study, normally by completing a thesis or equivalent as prescribed in the MSc Schedule.

A candidate may be exempted from some of the prescribed papers on the basis of previous study.

A candidate shall, before commencing the investigation to be described in a thesis, secure the approval of the Head of the Department concerned for the topic, the supervisor(s), and the proposed course of the investigation.

A candidate may not present a thesis which has previously been accepted for another degree.

A candidate taking the degree by papers and thesis must pass both the papers and the thesis components.

For the thesis, the research should be of a kind that a diligent and competent student should complete within one year of full-time study.



Read less
This program is designed for in-service music educators who wish to upgrade their skills in music technology and apply the materials, musicianship skills, and methodologies in a focused program to enhance music learning in all facets of the music curriculum, yet who do not wish to undertake a full master's degree curriculum. Read more
This program is designed for in-service music educators who wish to upgrade their skills in music technology and apply the materials, musicianship skills, and methodologies in a focused program to enhance music learning in all facets of the music curriculum, yet who do not wish to undertake a full master's degree curriculum.

Learning Outcomes

• Content and Pedagogical Specialist: Knows learners, subject matter, and curriculum.
• Assessment and Instructional Designer: Constructs effective learning experiences/outcomes assessments.
• Classroom Community Builder and Diversity Advocate: Values diversity and community in the classroom through practice.
• School and Community Professional: Applies knowledge of the context of education and engages in collaborative activities, partnerships, service, and advocacy.
• Self-Directed Practitioner: Directs personal growth, professional practice, and reflective practice.

Curriculum

Core modules:

• MUE 591 Intro Notation, Sequencing & Elec Inst
• MUE 592 Intro CAI, Multimedia and Internet
• MUE 598 Integrating Music Tech in Classroom
• MUE 593 Notation for Music Educators

PLUS one from:

• MUE 596 Multimedia Authoring Mus Ed
• MUE 597 Digital Media for Music Educators

PLUS

• One Music Technology elective worth 3 credits.

Please see the website for more detailed information about these modules:

http://catalog.wcupa.edu/general-information/index-course-prefix-guide/course-index/graduate/mue/

Read less
Learn the essential skills and techniques needed to develop autonomous systems, embedded artificial intelligence and robotics. This course is new for 2018. Read more

Learn the essential skills and techniques needed to develop autonomous systems, embedded artificial intelligence and robotics.

This course is new for 2018

Our course will help you take your career forward in an innovative and developing area of engineering. It balances advanced theory with technical skills so that you can learn to develop complete operational systems. Our course is suited to you if you have a background in electronic and electrical engineering, computer science or a related discipline.

During the course, you will gain a comprehensive understanding of how to research, design and develop systems. You’ll explore robotics engineering and software, autonomous systems technologies, processes and products throughout the industry value chain. Other areas you will cover include computational intelligence, machine learning and sensors.

Your studies will focus on tackling engineering challenges using whole-systems approaches. We’ll give you the tools to analyse and evaluate the impact of the resources, processes and products you choose in developing systems. You’ll consider stakeholder needs and factors such as technical, economic, environmental and social.

You’ll learn from academics in our Departments of Computer Science, Electronic & Electrical Engineering, and Mechanical Engineering. Their international collaborations and research expertise feed into your learning experience.

You will work on individual and group projects using the same systems platforms as those used in industry. Our focus on practical learning makes sure you have the skills to design and build robotic platforms and autonomous systems.

You’ll develop:

  • The fundamentals in robotics, electronics and autonomous systems, from established principles to new techniques
  • An understanding of design processes and methodologies and how to apply them
  • Awareness of current challenges and the latest thinking in electronic systems design
  • The ability to test a range of concepts and apply them to engineering projects

You’ll graduate with the skills to innovate and deliver resource-efficient practices and solutions for robotic and autonomous systems. Your knowledge will prepare you for a career in the engineering sector or for further postgraduate study and research.

We also offer this course without a placement (3 semesters).

Course structure

See our webpage for details.



Read less

  • 1
Show 10 15 30 per page



Cookie Policy    X