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WHAT YOU WILL GAIN. - Practical guidance from biomedical engineering experts in the field. - 'Hands on' knowledge from the extensive experience of the lecturers, rather than from only the theoretical information gained from books and college reading. Read more
WHAT YOU WILL GAIN

- Practical guidance from biomedical engineering experts in the field
- 'Hands on' knowledge from the extensive experience of the lecturers, rather than from only the theoretical information gained from books and college reading
- Credibility as a biomedical engineering expert in your firm
- Skills and know-how in the latest technologies in biomedical engineering
- Networking contacts in the industry
- Improved career prospects and income
- An EIT Advanced Diploma of Biomedical Engineering

Next intake is scheduled for June 06, 2017. Applications are now open; places are limited.

INTRODUCTION

Biomedical engineering is the synergy of many facets of applied science and engineering. The advanced diploma in biomedical engineering provides the knowledge and skills in electrical, electronic engineering required to service and maintain healthcare equipment. You will develop a wide range of skills that may be applied to develop software, instrumentation, image processing and mathematical models for simulation. Biomedical engineers are employed in hospitals, clinical laboratories, medical equipment manufacturing companies, medical equipment service and maintenance companies, pharmaceutical manufacturing companies, assistive technology and rehabilitation engineering manufacturing companies, research centres. Medical technology industry is one of the fast-growing sectors in engineering field. Join the next generation of biomedical engineers and technicians and embrace a well paid, intensive yet enjoyable career by embarking on this comprehensive and practical program. It provides a solid overview of the current state of biomedical engineering and is presented in a practical and useful manner - all theory covered is tied to a practical outcomes. Leading biomedical/electronic engineers with several years of experience in biomedical engineering present the program over the web using the latest distance learning techniques.

There is a great shortage of biomedical engineers and technicians in every part of the world due to retirement, restructuring and rapid growth in new industries and technologies. Many companies employ electrical, electronic engineers to fill the vacancy and provide on the job training to learn about biomedical engineering. The aim of this 18-month eLearning program is to provide you with core biomedical engineering skills to enhance your career prospects and to benefit your company/institution. Often universities and colleges do a brilliant job of teaching the theoretical topics, but fail to actively engage in the 'real world' application of the theory with biomedical engineering. This advanced diploma is presented by lecturers who are highly experienced engineers, having worked in the biomedical engineering industry. When doing any program today, a mix of both extensive experience and teaching prowess is essential. All our lecturers have been carefully selected and are seasoned professionals.

This practical program avoids weighty theory. This is rarely needed in the real world of industry where time is short and immediate results, based on hard-hitting and useful know-how, is a minimum requirement. The topics that will be covered are derived from the acclaimed IDC Technologies' programs attended by over 500,000 engineers and technicians throughout the world during the past 20 years. And, due to the global nature of biomedical engineering today, you will be exposed to international standards.

This program is not intended as a substitute for a 4 or 5 year engineering degree, nor is it aimed at an accomplished and experienced professional biomedical engineer who is working at the leading edge of technology in these varied fields. It is, however, intended to be the distillation of the key skills and know how in practical, state-of-the-art biomedical engineering. It should also be noted that learning is not only about attending programs, but also involves practical hands-on work with your peers, mentors, suppliers and clients.

WHO WOULD BENEFIT

- Electrical and Electronic Engineers
- Electrical and Electronic Technicians
- Biomedical Equipment/Engineering Technician
- Field Technicians
- Healthcare equipment service technicians
- Project Engineers and Managers
- Design Engineers
- Instrumentation Engineers
- Control Engineers
- Maintenance Engineers and Supervisors
- Consulting Engineers
- Production Managers
- Mechanical Engineers
- Medical Sales Engineers

In fact, anyone who wants to gain solid knowledge of the key elements of biomedical engineering in order to improve work skills and to create further job prospects. Even individuals who are working in the healthcare industry may find it useful to attend to gain key, up to date perspectives.

COURSE STRUCTURE

The program is composed of 18 modules. These cover the basics of electrical, electronic and software knowledge and skills to provide you with maximum practical coverage in the biomedical engineering field.

The 18 modules will be completed in the following order:

- Basic Electrical Engineering
- Technical and Specification Writing
- Fundamentals of Professional Engineering
- Engineering Drawings
- Printed Circuit Board Design
- Anatomy and Physiology for Engineering
- Power Electronics and Power Supplies
- Shielding, EMC/EMI, Noise Reduction and Grounding/Earthing
- Troubleshooting Electronic Components and Circuits
- Biomedical Instrumentation
- Biomedical Signal Processing
- C++ Programming
- Embedded Microcontrollers
- Biomedical Modelling and Simulation
- Biomedical Equipment and Engineering Practices
- Biomedical Image Processing
- Biomechanics and Assistive Technology
- Medical Informatics and Telemedicine

COURSE FEES

What are the fees for my country?

The Engineering Institute of Technology (EIT) provides distance education to students located almost anywhere in the world – it is one of the very few truly global training institutes. Course fees are paid in a currency that is determined by the student’s location. A full list of fees in a currency appropriate for every country would be complex to navigate and, with today’s exchange rate fluctuations, difficult to maintain. Instead we aim to give you a rapid response regarding fees that is customised to your individual circumstances.

We understand that cost is a major consideration before a student commences study. For a rapid reply to your enquiry regarding courses fees and payment options, please enquire via the below button and we will respond within 2 business days.

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Study this dynamic blend of marketing and sales and gain the skills and practical experience to deliver commercial success to any organisation around the world. Read more
Study this dynamic blend of marketing and sales and gain the skills and practical experience to deliver commercial success to any organisation around the world.

A career in marketing with sales management can take you all over the world. This course introduces you to the theories and principles of marketing with a focus on sales management.

Sharing much of its content with the MSc in Marketing, you’ll gain the sales management theory and practical skills you need to be successful in the area of professional sales.

Choosing to study this dynamic blend of marketing and sales will bring increased employment opportunities in this rapidly growing field.

See the website http://www.napier.ac.uk/en/courses/msc-marketing-with-sales-management-postgraduate-fulltime

What you'll learn

MSc Marketing with Sales Management introduces you to the theories and principles of marketing and professional selling and sales management, delivering practical applications based on real commercial selling and business scenarios.

Sales management and marketing require a wide range of skills. You'll learn to think analytically and critically examine the issues confronting the global business environment. You'll also gain a variety of oral and presentation techniques to communicate effectively with clients.

You’ll develop quantitative and qualitative research through preparing and writing your dissertation. You’ll understand how to develop brands and market them effectively in the global marketplace.

You’ll benefit from our strong links within the global sales and marketing industries, as well as guest speakers.

This is a full-time course, starting in September or January, and is split up into three trimesters. You’ll learn by a variety of teaching methods including lectures, tutorials and independent study. Our teaching team is highly qualified and experienced within sales management.

Sales management is a key role within all businesses and there are opportunities for senior level sales-related roles in a range of industries including oil and gas, chemicals, information technology, retail, pharmaceuticals, finance and engineering.

Sales-ready graduates are highly prized assets to many organisations. With improved selling skills and techniques and knowledge of effective sales processes and relationship strategy, you’ll be able to deliver commercial success to any organisation.

Modules

Your course structure is based upon the MSc Marketing and includes modules from your specialist area, including:

• Principles and Practice of Marketing
• International Sales Management
• Strategic Brand Management
• Professional Selling and Sales Strategies
• Research Methods
• Dissertation

One option module from:
• Marketing Communications
• Consumer Behaviour

One option module from:
• Direct and Digital Marketing
• New Venture Planning
• Advertising as Cultural Discourse
• Global Marketing

Study modules mentioned above are indicative only. Some changes may occur between now and the time that you study.

Careers

The scope of marketing and sales employment opportunities is wide. Most businesses recognise the need for a marketing and sales function and positions arise in a variety of areas worldwide such as:

• IT
• retail
• finance
• health
• charities
• tourism
• government

How to apply

http://www.napier.ac.uk/study-with-us/postgraduate/how-to-apply

SAAS Funding

Nothing should get in the way of furthering your education. Student Awards Agency Scotland (SAAS) awards funding for postgraduate courses, and could provide the help you need to continue your studies. Find out more: http://www.napier.ac.uk/study-with-us/postgraduate/fees-and-funding/saas-funded-courses

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Mechanical engineers are both generalists and specialists, bringing broad expertise and specialised mastery to their roles as project managers, leaders and innovators. Read more

Mechanical engineers are both generalists and specialists, bringing broad expertise and specialised mastery to their roles as project managers, leaders and innovators. As a student of GCU's MSc Mechanical Engineering, you'll continue in this tradition. The programme is designed to expand your core knowledge of the discipline while enhancing your skills as a specialist in either design or manufacture.

The programme was developed according to the UK Engineering Council's benchmark requirements for professional engineering, ensuring you'll enter the workforce with the relevant capabilities that employers value. It is also accredited by the Institution of Mechanical Engineers (IMechE). Furthermore, our industrial advisory board offers strong connections to industry.

GCU's mechanical engineering department contributes to important research in the discipline, investigating topics like materials and manufacturing, finite element analysis, computer-aided design and manufacture, and machine condition monitoring.

The MSc Mechanical Engineering curriculum encourages you to develop as a professional as well as an engineer.

  • Build your interpersonal skills to succeed as a team member and manager
  • Explore topics such as project planning and methodology, strategy and innovation, and computer-aided engineering
  • Practise managing resources and meeting project objectives
  • Choose from two options for specialisation: Design or Manufacture

When you study engineering at GCU, you'll join a welcoming community of learners and professionals. You'll find classmates and colleagues who are creative and entrepreneurial, committed to using their expertise to make a positive impact and advance the common good.

What you will study

The programme offers two specialist study options; Design and Manufacture. These options share a number of common modules that directly reflect the activities of a professional mechanical engineer. Students complete eight taught modules - four in trimester A and four in trimester B; and an MSc dissertation in trimester C.

  • Project Planning and Methodology
  • Strategy and Innovation
  • Advanced Computer-Aided Engineering
  • Condition Monitoring
  • Project
  • Specialist Modules (Design)
  • Specialist Modules (Manufacture)

Assessment methods

The taught modules are either assessed by coursework only or a combination of coursework and examination. In the later case the final mark is determined by weighted average of the two elements. The MSc project is assessed by project reports, practical operation and an electronic presentation.

Professional accreditation

The development of these Masters options is in direct response to the specification of benchmark requirements for professional competence by the UK's Engineering Council (UK-SPEC). This programme is accredited by the Institution of Mechanical Engineers (IMechE).

Why choose this programme?

The MSc in Mechanical Engineering has very strong industrial links through its industry advisory board. The school participates in many research activities within the area of mechanical engineering. This includes; advanced materials and manufacturing processes, finite element analysts, computer-aided design and manufacture and machine condition monitoring.

HM Forces

In partnership with HM Forces, GCU has identified this programme is being particularly suited to military and ex-military men and women. Visit the HM Forces Careers Zone for more information on the services we provide.

Graduate prospects

Our graduates are appreciated by employers for their career-focused attitudes and socially driven perspectives. With skilled engineers in high demand, you can expect excellent job prospects in the field.

Graduates of the MSc Mechanical Engineering find employment in the oil and gas industry, defence, computer-aided engineering and building. They also work in mechanical design engineering, project engineering, manufacturing engineering and engineering sales.



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Mechanical engineers are both generalists and specialists, bringing broad expertise and specialised mastery to their roles as project managers, leaders and innovators. Read more

Mechanical engineers are both generalists and specialists, bringing broad expertise and specialised mastery to their roles as project managers, leaders and innovators. As a student of GCU's MSc Mechanical Engineering, you'll continue in this tradition. The programme is designed to expand your core knowledge of the discipline while enhancing your skills as a specialist in either design or manufacture.

The programme was developed according to the UK Engineering Council's benchmark requirements for professional engineering, ensuring you'll enter the workforce with the relevant capabilities that employers value. It is also accredited by the Institution of Mechanical Engineers (IMechE). Furthermore, our industrial advisory board offers strong connections to industry.

GCU's mechanical engineering department contributes to important research in the discipline, investigating topics like materials and manufacturing, finite element analysis, computer-aided design and manufacture, and machine condition monitoring.

The MSc Mechanical Engineering curriculum encourages you to develop as a professional as well as an engineer.

  • Build your interpersonal skills to succeed as a team member and manager
  • Explore topics such as project planning and methodology, strategy and innovation, and computer-aided engineering
  • Practise managing resources and meeting project objectives
  • Choose from two options for specialisation: Design or Manufacture

When you study engineering at GCU, you'll join a welcoming community of learners and professionals. You'll find classmates and colleagues who are creative and entrepreneurial, committed to using their expertise to make a positive impact and advance the common good.

What you will study

The programme offers two specialist study options; Design and Manufacture. These options share a number of common modules that directly reflect the activities of a professional mechanical engineer. Students complete eight taught modules - four in trimester A and four in trimester B; and an MSc dissertation in trimester C.

  • Project Planning and Methodology
  • Strategy and Innovation
  • Advanced Computer-Aided Engineering
  • Condition Monitoring
  • Project
  • Specialist Modules (Design)
  • Specialist Modules (Manufacture)

Assessment methods

The taught modules are either assessed by coursework only or a combination of coursework and examination. In the later case the final mark is determined by weighted average of the two elements. The MSc project is assessed by project reports, practical operation and an electronic presentation.

Professional accreditation

The development of these Masters options is in direct response to the specification of benchmark requirements for professional competence by the UK's Engineering Council (UK-SPEC). This programme is accredited by the Institution of Mechanical Engineers (IMechE).

Why choose this programme?

The MSc in Mechanical Engineering has very strong industrial links through its industry advisory board. The school participates in many research activities within the area of mechanical engineering. This includes; advanced materials and manufacturing processes, finite element analysts, computer-aided design and manufacture and machine condition monitoring.

HM Forces

In partnership with HM Forces, GCU has identified this programme is being particularly suited to military and ex-military men and women. Visit the HM Forces Careers Zone for more information on the services we provide.

Graduate prospects

Our graduates are appreciated by employers for their career-focused attitudes and socially driven perspectives. With skilled engineers in high demand, you can expect excellent job prospects in the field.

Graduates of the MSc Mechanical Engineering find employment in the oil and gas industry, defence, computer-aided engineering and building. They also work in mechanical design engineering, project engineering, manufacturing engineering and engineering sales.



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World leading aircraft manufacturers predict the number of in-service commercial aircraft doubling to over 43,500 in the next 20 years. Read more
World leading aircraft manufacturers predict the number of in-service commercial aircraft doubling to over 43,500 in the next 20 years. Our MSc Aviation Engineering and Management course will provide you with the skills, knowledge and expertise to succeed in the aviation industry.
You’ll develop key problem-solving skills within the field of aviation including airlines, corporate aviation, general aviation, component manufacturing organisations, and related industries, and civil aviation governmental agencies.

You’ll gain an understanding of the various complexities facing aviation businesses through a breadth of industry related modules. Your studies will also cover a wide variety of tools, techniques, and research methods, and how they may be applied to research and solve real-life problems within the aviation industry.

See the website http://courses.southwales.ac.uk/courses/1878-msc-aviation-engineering-and-management

What you will study

The course consists of nine modules with a key theme throughout your studies including the ethical dimensions of decision-making and interpersonal relations. This means you can be confident that you will develop personally and professionally as part of the course, ultimately making yourself more employable. You’ll study the following modules:

- Aircraft Systems Design and Optimization (10 Credits)
This module will give you a comprehensive knowledge of the systems of the aircraft, including preliminary designing of systems primary and secondary systems, operation and maintenance concepts. You will be introduced to novel engineering design methods such as Multi Objective Design (MOD) and multi-disciplinary design optimisation. Part of the module will be delivered with the support of industrial partners and experts, which will bring real scale industrial experience and interaction with the industry.

- Aviation Sustainable Engineering
This module will explore the historical and contemporary perspectives in international aviation framework while looking at the socio-economic benefits of aviation since the Chicago Convention of 1944. You will analyse current and future design and manufacturing trends in the aerospace industry.

- Condition Monitoring and Non-Destructive Testing
This module analyses condition monitoring and non-destructive testing, giving you an appreciation for the key concepts and tools in this subject. You will evaluate the use of these tools in different situations within industry and make recommendations on necessary adjustments.

- Advanced Materials and Manufacture
You will look at a range of modern engineering materials and develop an awareness of the selection criteria for aeronautical and mechanical engineering applications. You will also look at a range of “standard” and modern manufacturing processes, methods and techniques.

- Lean Maintenance Operations & Certification
This module will help you develop and understand concepts in Six Sigma, lean maintenance, operational research, reliability centred maintenance and maintenance planning. You will evaluate and critically analyse processes within highly regulated industries.

- Safety, Health and Environmental Engineering Management
Covering the principles and implementation of the safety, health and environmental management within the workplace, you will look at key concepts in human cognition and other human factors in risk management and accident/incident investigation. You will also gain an understanding of the role of stakeholder involvement in sustainable development.

- Strategic Leadership and Management for Engineers
This module will explore a range of purposes and issues surrounding successful strategic management and leadership as well as appraising a range of leadership behaviours and processes that may inspire innovation, change and continuous transformation within different organisational areas including logistics and supply chain management.

- Research Methods for Engineers
The aim of this module is to provide you with the ability to determine the most appropriate methods to collect, analyse and interpret information relevant to an area of engineering research. To provide you with the ability to critically reflect on your own and others work.

- Individual Project
You will undertake a substantial piece of investigative research work on an appropriate engineering topic and further develop your skills in research, critical analysis and development of solutions using appropriate techniques.

Learning and teaching methods

You will be taught through a variety of lectures, tutorials and practical laboratory work.

You will have 10 contact hours per week, you will also need to devote around 30 hours per week to self-study, such as conducting research and preparing for your assessments and lectures.

Work Experience and Employment Prospects

Aerospace engineering is an area where demand exceeds supply. As a highly skilled professional in aircraft maintenance engineering, you will be well placed to gain employment in this challenging industry. The aircraft industry is truly international, so there is demand not only in the UK, but throughout the world.

Careers available after graduation include aircraft maintenance planning, engineering, materials, quality assurance or compliance, technical services, logistics, NDT, method and process technical engineering, aircraft or engine leasing, aviation sales, aviation safety, reliability and maintainability, operations and planning, airworthiness, technical support, aircraft surveying, lean maintenance, certification, production planning and control.

Assessment methods

You will be continually assessed coursework or a mixture of coursework and exams. The dissertation allows you to research a specific aviation engineering topic, to illustrate your depth of knowledge, critical awareness and problem-solving skills. The dissertation has three elements of assessment: a thesis, a poster presentation, and a viva voce examination.

Facilities

The aerospace industry has become increasingly competitive and in recognising this, the University has recently invested £1.8m into its aerospace facilities.

Facilities available to our students have been fully approved by the Civil Aviation Authority (CAA). With access to an EASA-approved suite of practical training facilities, our students can use a range of industry-standard facilities.

Our Aerospace Centre is home to a Jetstream 31 Twin Turboprop aircraft, assembled with Honeywell TPE331 Engines and Rockwell-Collins Proline II Avionics. It has a 19-passenger configuration.

The EASA-approved suite contains training and practical workshops and laboratories. Each area contains the tools and equipment required to facilitate the instruction of either mechanical or avionic practical tasks as required by the CAA.

Students use the TQ two-shaft gas turbine rig to investigate the inner workings of a gas turbine engine by collecting real data and subsequently analysing them for engine performance.

Our sub-sonic wind tunnel is used for basic aerodynamic instruction, testing and demonstrations on various aerofoil shapes and configurations.

The single-seater, full motion, three axes Merlin MP521 flight simulator can be programmed for several aircraft types that include the Airbus A320 and the Cessna 150.

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WHAT YOU WILL GAIN. - Skills and know-how in the latest technologies in mechanical engineering. - Hard hitting know-how in pumps, compressors, piping, seals and machinery safety. Read more
WHAT YOU WILL GAIN:

- Skills and know-how in the latest technologies in mechanical engineering
- Hard hitting know-how in pumps, compressors, piping, seals and machinery safety
- Guidance from experts in the field of mechanical engineering technology
- Networking contacts in the industry
- Improved career prospects and income
- A world recognized EIT Advanced Diploma in Mechanical Engineering Technology

Next intake is scheduled for October 02, 2017. Applications now open; places are limited.

There are limited places in all of our courses to ensure great interaction can be achieved between the presenters and the students.

Contact us now to receive help from experienced Course Advisors!

INTRODUCTION

Whilst there is probably not a serious shortage of theoretically oriented practitioners in mechanical engineering, there is a shortage of highly skilled practically oriented mechanical technologists and engineers in the world today, due to the new technologies only recently becoming a key component of all modern plants, factories and offices. The critical shortage of experts in the area has been accentuated by retirement, restructuring and rapid growth in new industries and technologies. This is regardless of the recession in many countries.

Many businesses throughout the world comment on the difficulty in finding experienced mechanical engineers and technologists despite paying outstanding salaries. For example, about two years ago a need developed for mechanical technologists and engineers in building process plants. The interface from the traditional SCADA and industrial automation system to the web and to mechanical equipment has also created a new need for expertise in these areas. Specialists in these areas are few and far between.

The aim of this 18 month e-learning program is to provide you with core skills in working with mechanical engineering technology and systems and to take advantage of the growing need by industry here.

The five threads running through this program are:

- Fundamentals of Mechanical Engineering Technologies
- Applications of Mechanical Engineering Technologies
- Energy Systems
- Industrial Automation
- Management

WHO SHOULD ATTEND

- Plant operations and maintenance personnel
- Design engineers
- Process technicians, technologists and engineers
- Process control engineers and supervisors
- Mechanical technicians, technologists and engineers
- Mechanical equipment sales engineers
- Pump and mechanical equipment operators
- Contract and asset managers

COURSE STRUCTURE

The course is composed of 21 modules, which cover 5 main threads, to provide you with maximum practical coverage in the field of Mechanical Engineering Technology:

FUNDAMENTALS OF MECHANICAL ENGINEERING

Fundamentals of Mechanical Engineering
Structural Mechanics
Mechanical Drive Systems
A C Electrical Motors and Drives
Rotating Equipment Balancing, Alignment and Condition Monitoring
Hydraulics
Pneumatics
Lubrication Engineering

APPLICATIONS OF MECHANICAL ENGINEERING TECHNOLOGY

Heating, Ventilation and Air-conditioning
Process Plant Layout and Piping Design
Pipeline Systems
Pumps and Compressors
Mechanical Seals
Safe Lifting
Machinery Safety

ENERGY SYSTEMS

Energy Efficiency
Renewable Energy Systems

INDUSTRIAL AUTOMATION

Industrial Automation
Measurement and Control Systems
Management of Hazardous Areas

MANAGEMENT

Project Management

COURSE FEES

What are the fees for my country?

The Engineering Institute of Technology (EIT) provides distance education to students located almost anywhere in the world – it is one of the very few truly global training institutes. Course fees are paid in a currency that is determined by the student’s location. A full list of fees in a currency appropriate for every country would be complex to navigate and, with today’s exchange rate fluctuations, difficult to maintain. Instead we aim to give you a rapid response regarding fees that is customised to your individual circumstances.

We understand that cost is a major consideration before a student commences study. For a rapid reply to your enquiry regarding courses fees and payment options, please enquire via the below button and we will respond within 2 business days.

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Overview. Located within a European Centre of Excellence for Tissue engineering, and based on Keele’s University’s local hospital campus at the Guy Hilton Research Centre, 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’s University’s local hospital campus at the Guy Hilton Research Centre, the MSc in Cell and Tissue Engineering provides support and development to enhance your career within this rapidly expanding field. The research centre is also an EPSRC Doctoral Training Centre for Regenerative Medicine, an Arthritis UK Centre and a UK Regenerative Medicine Platform Research Hub. This multidisciplinary environment enables close interaction with leading academics and clinicians involved in cutting-edge, and clinically transformative research.

Course Director: Dr Adam Sharples ()

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.

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, life science 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 and 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

Delivered through the Keele School of Medicine and the Research Institute for Science and Technology in Medicine (ISTM), 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 Aims

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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What's the Master of Chemical Engineering all about? . The Master of Science in Chemical Engineering programme is primarily aimed at applying chemical engineering principles to develop technical products and to design, control and improve industrial processes. Read more

What's the Master of Chemical Engineering all about? 

The Master of Science in Chemical Engineering programme is primarily aimed at applying chemical engineering principles to develop technical products and to design, control and improve industrial processes. Students also learn to take environmental and safety issues into account during all phases of the process.

Two guiding principles of sustainable development – the rational exploitation of resources and energy, and the application of the best available technology – are emphasised, as is the mantra “reduce, reuse, recycle”.

As a chemical engineering student, you will learn to think in a process-oriented manner and grasp the complexity of physico-chemical systems. Even more than other specialists, you will be asked to solve problems of a very diverse nature. Insights into processes at the nano and micro scale are fundamental for the development of new products and/or (mega-scale) technologies.

While students should have a foundational knowledge of chemistry, the underlying chemistry of the elements and components, their properties and mutual reactions are not the main focal points of the programme.

With a focus on process, product and environmental planet engineering, the programme does not only guarantee a solid chemical engineering background, it also focuses on process and product intensification, energy efficient processing routes, biochemical processes and product-based thinking rather than on the classical process approach.

Structure 

The programme itself consists of an important core curriculum that covers the foundations of chemical engineering. The core curriculum builds on the basic knowledge obtained during the Bachelor’s. In this part of the programme, you will concentrate on both the classical and the emerging trends in chemical engineering. 

Students also take up 9 credits from ‘Current trends in chemical engineering’-courses. These courses are signature courses for the Master’s programme and build on the research expertise present within the department. These courses encompass microbial process technology, process intensification, exergy analysis of chemical processes and product design. 

The curriculum consists of a broad generic core, which is then strengthened and honed during the second year, when students select one of the three specialisations: product, process and environmental engineering.

This choice provides you with the opportunity to specialise to a certain extent. Since the emerging areas covered in the programme are considered to be the major challenges within the chemical and related industries, graduating in Leuven as a chemical engineer will give you a serious advantage over your European colleagues since you will be able to integrate new technologies within existing production processes.

During their Master’s studies, students are encouraged to take non-technical courses (general interest courses), organized for instance by other faculties (economics, social sciences, psychology…) in order to broaden their scope beyond mere technical courses.

An important aspect of the Master’s programme is the Master’s thesis. Assigning Master’s thesis topics to students is based on a procedure in which students select 5 preferred topics from a long list.

The Master’s programme highly values interactions with the chemical industry which is one of the most important pillars of the Flemish economy. As such, some courses are taught by guest professors from the industry.

International and industrial experience

One or two semesters of the programme can be completed abroad in the context of the ERASMUS+ programme. Additionally, you can apply for an industrial internship abroad through the departmental internship coordinator. These internships take place between the third Bachelor’s year and the first Master’s year, or between the two Master’s years.

The department also offers a new exchange programme with the University of Delaware (United States) and with the Ecole Polytechique in Montréal (Canada).

The faculty’s exchange programmes are complemented by the BEST network (Board of European Students of Technology). This student organisation offers the opportunity to follow short courses, usually organised in the summer months. The faculty also participates in various leading international networks.

You can find more information on this topic on the website of the Faculty website.

Career perspectives

The chemical sector represents one of the most important economic sectors in Belgium. It provides about 90,000 direct and more than 150,000 indirect jobs. With a 53 billion euro turnover and a 35% share of the total Belgian export, the chemical sector is an indispensable part of the contemporary Belgian economy.

As a chemical engineer you will predominantly work in industrial branches involved in (the production of) bulk and specialty chemicals, oil and natural gas (petrochemical companies and refineries), non-ferrometallurgics, energy, waste treatment, food, cosmetics, pharmaceuticals and biotechnology. The following professional activities lie before you:

  • design, planning and building of installations ('project engineer')
  • monitoring and optimisation of existing processes ('process engineer')
  • design/formulation and optimisation of products ('product engineer')
  • R&D of technical products, processes and devices
  • customer services, retailing ('sales engineer')
  • management

Apart from the traditional career options, your insight into complex processes will also be much appreciated in jobs in the financial and governmental sector, where chemical engineers are often employed to supervise industrial activities, to deliver permissions, and to compose regulations with respect to safety and environmental issues.

As self-employed persons, chemical engineers work in engineering offices or as consultants. Due to their often very dynamic personality, chemical engineers can also be successful as entrepreneurs.



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Medical engineering combines the design and problem-solving skills of engineering with medical and biological sciences to contribute to medical device solutions and interventions for a range of diseases and trauma. Read more

Medical engineering combines the design and problem-solving skills of engineering with medical and biological sciences to contribute to medical device solutions and interventions for a range of diseases and trauma.

This exciting and challenging programme will give you a broad knowledge base in this rapidly expanding field, as well as allowing you to specialise through your choice of optional modules.

We emphasise the multidisciplinary nature of medical engineering and the current shift towards the interface between engineering and the life sciences. You could focus on tissue engineering, biomaterials or joint replacement technology among a host of other topics.

Whether you’re an engineer or surgeon, or you work in sales, marketing or regulation, you’ll gain the knowledge and skills to launch or develop your career in this demanding sector.

Institute of Medical and Biological Engineering

You’ll learn in an exciting research environment where breakthroughs are being made in your discipline. This programme is closely linked to our Institute of Medical and Biological Engineering (IMBE), which focuses on research and education in the fields of medical devices and regenerative medicine. It focuses on innovating and translating new therapies into practical clinical applications.

Our world-class facilities in materials screening analysis, joint simulation, surface analysis, heart valve simulation and tensile and fatigue testing allow us to push the boundaries in medical engineering.

Find out more about IMBE

Accreditation

This course is accredited by the Institute of Mechanical Engineers (IMechE) under licence from the UK regulator, the Engineering Council.



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Application period/deadline. November 1, 2017 - January 24, 2018. Cutting-edge knowledge in wireless communications both at physical and network layers. Read more

Application period/deadline: November 1, 2017 - January 24, 2018

• Cutting-edge knowledge in wireless communications both at physical and network layers

• Capability to design and implement wireless solutions, e.g., for future 5G networks, Internet-of-Things (IoT) devices and smart energy-efficient wireless sensor applications

• Relevant skills of the latest radio engineering methods, tools, and technologies, and ability to design RF electronics for smart phones and base stations of mobile systems

The International Master’s Degree Programme in Wireless Communications Engineering (WCE) is a two-year programme concentrating on wireless communications network technology. The programme will give you relevant skills and core knowledge of the latest methods, tools and technologies combined with time-tested issues such as:

• Antennas

• Advanced wireless communication systems

• Communication networks

• Computer engineering

• Electronics

• Information theory

• Stochastical and digital signal processing

• Radio channels

• Radio engineering

The two-year programme has two specialisation options:

• Radio Access and Networks

• RF Engineering

Radio Access and Networks concentrates on designing and applying radio access technologies both at physical layer and at network layer for 5G, IoT, and future mobile system generations.

RF Engineering focuses on essential radio system parts and gives the knowledge to design integrated RF and DSP circuits for mobile handsets, base stations, future 5G devices, IoT applications, and smart & energy efficient sensors.

Optional module makes it possible to widen your expertise into:

• Machine vision

• Mobile and social computing

• Signal processors, and

• Video and biomedical signal processing.

The education is organized by the Centre for Wireless Communications which consists of 150 academics from over 20 countries. CWC performs world-class research for the future of 5G and IoT applications, which will give you the possibility to move forward already during your studies. CWC provides a number of jobs as a trainee or a master’s thesis student, with the possibility to continue as a doctoral student, and even as a post-doctoral researcher.

The skills gained in the programme offer you a solid academic training and essential knowledge on the design of wireless communications networks at the system level. After graduation you are capable of designing, implementing and employing 5G and IoT applications and developing future wireless communications technologies.

Possible titles include:

• Chief engineer

• Design engineer

• Development engineer

• Maintenance engineer

• Patent engineer

• Program manager

• Project manager

• Radio network designer

• Research engineer

• RF engineer

• Sales engineer

• System engineer

• Test engineer, and

• University teacher

Students applying for the programme must possess an applicable B.Sc. degree in one of the following fields of study: communications engineering, electronics & electrical engineering, or computer engineering.

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The overall objective of this master's degree is to enable students to find effective solutions to problems in the field of electronic engineering and, specifically, to design electronic equipment and automated production systems, perform maintenance and control in production industries, provide technical advice, or join the sales departments of companies in the electronics sector. Read more
The overall objective of this master's degree is to enable students to find effective solutions to problems in the field of electronic engineering and, specifically, to design electronic equipment and automated production systems, perform maintenance and control in production industries, provide technical advice, or join the sales departments of companies in the electronics sector. For graduates who wish to undertake doctoral studies, this programme will also prepare them to do effective research in collaboration with national and international research groups.

Career Opportunities

Graduates in University Master's Degree in Electronic Systems Engineering and Technology are capable to work in different types of industry:
-Engineering consultancy
-Engineering consultancy management
-Management of instrumentation/sensors in production plants
-Maintenance management
-Sales department management
-Research and development: companies in the chemical, industrial, energy sectors, automobileetc.
-Research and development in technology-based companies
-Research and development in universities and research centres
-Entrepreneurship
-Teaching

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The two year MSc programme Biosystems Engineering is for students with an (agricultural) engineering background on bachelor level that are interested to pursue a MSc degree in a field where the interaction between technology and biology plays an important role. Read more

MSc Biosystems Engineering

The two year MSc programme Biosystems Engineering is for students with an (agricultural) engineering background on bachelor level that are interested to pursue a MSc degree in a field where the interaction between technology and biology plays an important role.

Programme summary

During the master Biosystems Engineering, students are educated in finding innovative solutions. The programme combines knowledge of technology, living systems, natural and social sciences with integrated thinking using a systems approach. Solutions can be applied to either the field of food or nonfood agricultural production. During the programme, you develop independence and creativity while acquiring skills that enable you to analyse problems and work as part of an interdisciplinary team. Biosystems Engineering is a tailor-made, thesis oriented programme based on the specific interests and competencies of the student.

Thesis tracks

Farm Technology
This topic consists of four main themes, namely automation for bioproduction, greenhouse technology, livestock technology and soil technology. All these topics have the shared goal of designing systems in which technology is applied to the demands of plants, animals, humans and the environment. Examples of such applications include precision agriculture, conservation tillage, fully automated greenhouses and environmentally friendly animal husbandry systems that also promote animal welfare.

Systems and Control
Production processes and various kinds of machinery have to be optimised to run as efficiently as possible; and with the least amount of possible environmental impact. To achieve this, computer models and simulations are developed and improved. Examples include designing control systems for a solar-powered greenhouse to include a closed water cycle and designing a tomato-harvesting robot.

Information Technology
Information and communication play a vital role in our society. It is necessary to acquire, use and store data and information to optimise production processes and quality in production chains. This requires the design and management of business information systems, software engineering, designing databases and modelling and simulation.

Environmental Technology
Environmental technology revolves around closing cycles and reusing waste products and by-products. Processes have to be designed in such a way that they either reuse waste or separate it into distinct and reusable components. Examples include the production of compost, the generation of green energy or the design of environmentally friendly animal husbandry systems and greenhouses.

AgroLogistics
The goals of agrologistics are to get the right product in the right quantity and quality at the right time and to the right place as efficiently as possible while fulfilling the requirements of the stakeholders (such as government legislation and regulations). This requires the design of effective, innovative logistics concepts in agrifood chains and networks. Examples are the design of greenhouses developed for optimal logistics or designing a dairy production process with minimal storage costs.

Biobased Technology
The importance of biobased economy is increasing. Energy savings and the use of renewable energy are directions for achieving an environmentally sustainable industrial society. Biomass of plants, organisms and biomass available can be turned into a spectrum of marketable products and energy. In this track, you learn more about process engineering, biological recycling technology, biorefinery and how to abstract a real system into a physical model and analyse the physical model using dedicated software.

Your future career

Most graduates are employed in the agrofood sector, or related sectors of industry and trade, from local to international companies. They are project leaders, product managers, technical experts, sales specialists or managers at many kinds of companies including designers of agricultural buildings (animal husbandry systems, greenhouses) and bioenergy production systems. Others find jobs with IT companies (climate control computers, automated information systems) or firms in the agro-food chain that produce, store, process, distribute and market agricultural products. In the service sector or at governments, graduates enter careers as consultants, information officers or policymakers in the fields of technology and sustainable agricultural production, while others enter research careers at institutes or universities.

Alumnus Patrick Honcoop.
"I am working as a product manager at 365 FarmNet in Germany. 365FarmNet supports farmers to manage their whole agrarian holding with just one software application. I am responsible for the content of the software. I am the link between the farmers, the agrarian holdings and the software developers. I really enjoy these dynamics and variety within my function. Just like during my studies, when we visited farmers, companies and fairs during courses and excursions organised by the study association."

Related programmes:
MSc Animal Sciences
MSc Plant Sciences
MSc Geo-information Science
MSc Geographical Information Management and Applications
MSc Organic Agriculture

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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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What is the Master of Welding Engineering all about?. The Advanced Master is the ideal stepping-stone to a high-level job in the field of welding and joining technology. Read more

What is the Master of Welding Engineering all about?

The Advanced Master is the ideal stepping-stone to a high-level job in the field of welding and joining technology. In many countries, there is a permanent and growing demand for scientists and engineers who are knowledgeable and trained at an academic level in the field of welding engineering.

The programme is indispensable (and obligatory) for engineers seeking to work as Responsible Welding Coordinators. Engineers interested in R&D, quality, design, production, maintenance and particularly welding metallurgy will also find the programme instructive.

Structure

4 Clusters in the programme:

  • Welding processes and equipment
  • Materials and their behaviour during welding
  • Construction and design
  • Fabrication, applications engineering

Degrees and certifications

Upon successful completion of the entire programme (60 ECTS), you will be awarded the degree of MSc in Welding Engineering

Upon successful completion of the course (40 ECTS), you gain access to the International Institute of Welding oral examination. A passing score results in IIW accreditation as a certified International Welding Engineer (IWE) and European Welding Engineer (EWE).

Technology Campus De Nayer, Authorised Training Body

The green KU Leuven Technology Campus De Nayer, near Mechelen, is certified as an Authorised Training Body for International Welding Engineering by the Belgian Welding Association (BVL), which represents the International Institute of Welding (IIW).

Objectives

This advanced master's programme strives to offer students a complete training in the professional niche of Welding Engineering. The programme has the following goals:

  • Guaranteeing a complete accordance with the minimal requirements of the International Institute of Welding as described in its IIW Guideline in document IAB 252r2-14 "Minimum Requirements for the Education, Examination and Qualification for Personnel with Responsibility for Welding Coordination";
  • Provide broad and in-depth knowledge and skills of all kinds of courses related to welding necessary for a welding engineer to function in the current social and economic context. These courses include welding processes, materials science, metallurgy of high and low alloy steels, non-ferrous materials, metallurgy of compounds of heterogenous materials, the prevention of corrosion and abrasion, construction codes, welding standards, design exercises, quality control, production and manufacturing techniques.

To this end, students must acquire sufficient knowledge, skills and abilities in order to:

  • Work as a qualified welding engineer with a sufficient scientific background in welding (i.e. materials science, corrosion and protection, welding processes, standards and codes, quality, workshop lay-outing) to tackle welding-related problems individually or as part of a team.
  • Be well acquainted with legal aspects, business economics, professional ethics and safety.
  • Obtain a professional attitude that demonstrates a clear volition towards technological innovation, creativity and lifelong learning.
  • Use available information sources in a fast and efficient manner (scientific databases, patent databases, norms and codes).

Career Options

This programme opens up a wide spectrum of professional possibilities and exposes you to an extremely varied field of action: petrochemistry, the aviation and aero-space industry, civil construction, assembly plants, the nuclear sector, shipping and logistics, general construction, and more. As a welding engineer, you will carry out a wide range of duties, including research, design, production, maintenance, sales and quality inspection. 

Our graduates find employment in local SMEs, large multinational industrial companies as well as private and public organisations at home and abroad. There is a real need for experts with the capability to conduct research, carry out quality control analyses, and perform inspections, monitoring and certification in the broad field of welding. Some graduates start a career as independent consultants. 



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Electronics is at the heart of a wide range of business and entertainment systems and is vital to the growth of the global economy. Read more
Electronics is at the heart of a wide range of business and entertainment systems and is vital to the growth of the global economy. This programme is designed to equip you with the knowledge and skills you will need to play a leading part in the future research, development and application of these technologies.

These systems are vital to the growth of the global economy; reducing costs, improving quality and providing ever more sophisticated services. All aspects of business, from research and development to production, marketing and sales, benefit from rapid advances in such technology. Our social lives, entertainment and education are also enhanced by continuing advances in personal electronic systems, media compression and seamless connectivity using communications systems.

This degree programme is designed to equip you with the knowledge and skills you will need to play a leading part in the future research, development and application of these technologies.

You have a wide range of module choices in this degree programnme. The linkage between modules is minimised so that students are free to create a personalised study package. Thus topics from embedded systems, spoken language processing, image interpretation and 3D environments for virual reality and serious games, and some aspects of communications engineering can be combined in one degree programme.

About the School of Electronic, Electrical & Systems Engineering

Electronic, Electrical and Systems Engineering, is an exceptionally broad subject. It sits between Mathematics, Physics, Computer Science, Psychology, Materials Science, Education, Biological and Medical Sciences, with interfaces to many other areas of engineering such as transportation systems, renewable energy systems and the built environment.
Our students study in modern, purpose built and up to date facilities in the Gisbert Kapp building, which houses dedicated state-of-theart teaching and research facilities. The Department has a strong commitment to interdisciplinary research and boasts an annual research fund of more than £4 million a year. This means that wherever your interest lies, you can be sure you’ll be taught by experts in the field.

Funding and Scholarships

There are many ways to finance your postgraduate study at the University of Birmingham. To see what funding and scholarships are available, please visit: http://www.birmingham.ac.uk/postgraduate/funding

Open Days

Explore postgraduate study at Birmingham at our on-campus open days.
Register to attend at: http://www.birmingham.ac.uk/postgraduate/visit

Virtual Open Days

If you can’t make it to one of our on-campus open days, our virtual open days run regularly throughout the year. For more information, please visit: http://www.pg.bham.ac.uk

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