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Full Time MSc Degrees in Engineering, Liverpool, United Kingdom

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This Marine and Offshore Engineering Masters at Liverpool John Moores University is closely aligned with its leading marine research institute. Read more
This Marine and Offshore Engineering Masters at Liverpool John Moores University is closely aligned with its leading marine research institute. A long history of high quality teaching in this Masters subject contributes highly qualified graduates to a global growing industry.

•Complete this masters degree in one year (full time)
•Accredited by the Institution of Engineering and Technology (IET), this programme meets Chartered Engineer requirements
•The Liverpool Maritime Academy is an international centre of excellence in maritime education and professional training and education
•The programme has close industry links and is widely recognised by employers as meeting the requirements needed to succeed in the industry

This MSc degree programme will provide you with the engineering skills and techniques that you need to work as a specialist in the marine and offshore engineering field.

You will learn skills and techniques that will help you to make an immediate contribution to a company's capability and operation, and to progress into senior management positions.

This programme capitalises on the demand for highly qualified postgraduates and maintains LJMU’s longstanding reputation for meeting the needs of the maritime industry. The programme focuses on:
•safety analysis
•design engineering
•structural analysis
•maritime law and insurance
•quality systems
•alternative energy systems

LJMU’s expanding and internationally acclaimed marine and offshore engineering research underpins the programme, ensuring the curriculum reflects contemporary practice and thinking within the sector.

The course combines substantial marine modules with mechanical engineering options to produce a bespoke skills learning set. Our highly qualified and respected academic team combine specialist knowledge with relevant industrial experience.

This combination of academic and professional expertise helps ensure that graduates are well equipped to meet the opportunities and challenges of this exciting sector.

Please see guidance below on core and option modules for further information on what you will study.
Level 7
Maritime and offshore safety analysis
Offshore engineering
Marine design engineering
Research skills
MSc project
Advanced materials
Finite element analysis
Computational fluid dynamics
Operations research
Alternative energy systems
Project management
Engineering design using Solidworks
Engineering analysis using Solidworks
Modelling with Matlab and Simulink
Programming for engineering
LabVIEW

Further guidance on modules

The information listed in the section entitled ‘What you will study’ is an overview of the academic content of the programme that will take the form of either core or option modules. Modules are designated as core or option in accordance with professional body requirements and internal Academic Framework review, so may be subject to change. Students will be required to undertake modules that the University designates as core and will have a choice of designated option modules. Additionally, option modules may be offered subject to meeting minimum student numbers.


Academic Framework reviews are conducted by LJMU from time to time to ensure that academic standards continue to be maintained. A review is currently in progress and will be operational for the academic year 2016/2017. Final details of this programme’s designated core and option modules will be made available on LJMU’s website as soon as possible and prior to formal enrolment for the academic year 2016/2017.

Please email if you require further guidance or clarification.

Read less
This Masters in Telecommunications Engineering is accredited by IET and meets Chartered Engineer Status. Excel in the latest telecommunications technologies on this industry focused Liverpool John Moores University postgraduate course. Read more
This Masters in Telecommunications Engineering is accredited by IET and meets Chartered Engineer Status. Excel in the latest telecommunications technologies on this industry focused Liverpool John Moores University postgraduate course

•Complete this masters degree in one year (full time)
•Study at one the UK’s leading Engineering Schools
•Accredited by the Institution of Engineering and Technology (IET) and meets Chartered Engineer requirements
•Programme informed by internationally-acclaimed research in LJMU’s Electrical and Electronic Engineering Research Centre
•Close industry links
•Excellent career opportunities for positions including system designers, analysts, and senior engineers in the fields communications, computer networks and telecommunications

The MSc in Telecommunications Engineering is designed to develop engineers for the telecommunications industry who are able to design, commission, and manage telecommunications systems.

The programme benefits from being delivered by academics from LJMU’s School of Engineering, Technology and Maritime Operations, the General Engineering Research Institute (GERI) and the School of Computing and Mathematical Sciences.

The course team has strong industrial links and has established an international research profile. This is reflected in the programme securing accreditation by the Institution of Engineering and Technology (IET) - formerly the IEE - to meet its requirements for Chartered Engineer status.

The course covers radio frequency and microwave technologies, electronics and communications technologies, computer networks and wireless computing, and management.

The curriculum emphasises the application of the technologies and as such the course is supported by modern systems of modelling and simulation, an extensive laboratory programme and lectures from industrial experts.

You will have an opportunity to complete industrially-based projects and work experience in the areas of microwave, optical sensing, instrumentation, antenna design, etc.

Most of the MSc projects are undertaken in the Radio Frequency and Microwave research group within the General Engineering Research Institute. Research interests are concentrated into six main areas: Radio Frequency and Microwave (RFM) Applications, Underwater Communications, Radio Frequency Identification Technology (RFID) and wireless Applications, Sustainable Technologies, Non-destructive sensing and Terahertz laser sources.

LJMU’s international reputation in this field is reflected in the substantial research funds secured from the UK Engineering and Physical Sciences Research Council (EPSRC), Department of Trade and Industry, Envirolink, European Community and directly from industry including BP, United Utilities, Organon, Protensive, MercaChem and Biotage, Aspen Electronic, Anritsu and NEL.

Please see guidance below on core and option modules for further information on what you will study.
Level 7
Digital communications systems
Wireless networks and technologies
Telecommunications systems
Networks and protocols
Transmission media
Research skills
Modelling with Matlab and Simulink
MSc project
Advanced signal processing
Operations research
Safety and reliability
Project management
Programming for engineering
LabVIEW
Professional and leadership skills


Further guidance on modules
The information listed in the section entitled ‘What you will study’ is an overview of the academic content of the programme that will take the form of either core or option modules. Modules are designated as core or option in accordance with professional body requirements and internal Academic Framework review, so may be subject to change. Students will be required to undertake modules that the University designates as core and will have a choice of designated option modules. Additionally, option modules may be offered subject to meeting minimum student numbers.

Academic Framework reviews are conducted by LJMU from time to time to ensure that academic standards continue to be maintained. A review is currently in progress and will be operational for the academic year 2016/2017. Final details of this programme’s designated core and option modules will be made available on LJMU’s website as soon as possible and prior to formal enrolment for the academic year 2016/2017.

Please email if you require further guidance or clarification.

Read less
This Civil Engineering Masters at Liverpool John Moores University provides a route to Chartered Engineer status. Studying this postgraduate course, you will learn the skills you need to excel within and lead a civil engineering team. Read more
This Civil Engineering Masters at Liverpool John Moores University provides a route to Chartered Engineer status. Studying this postgraduate course, you will learn the skills you need to excel within and lead a civil engineering team

•Course available to study full time (1 year) and part time (2 years)
•Informed by internationally recognised research by our Built Environment and Sustainable Technologies (BEST) Research Institute
•You will enjoy excellent career opportunities in design and site-based roles
•Provides a route satisfying the learning requirements for Chartered Engineer status

Civil Engineering is the branch of engineering which designs and constructs large structures, such as bridges, roads, tunnels, tall buildings and flood defences. The overall aim of this MSc programme is to develop the skills needed to play a leading role in this exciting profession.

The programme is ideally suited to students who have completed a BEng (Hons) in Civil Engineering, but is also suitable for graduates from allied disciplines, such as environmental, mechanical, architectural or building services engineering. The Masters course aims to provide a route for graduates in Civil or Structural Engineering to fulfil the learning requirements for Chartered Engineer status.

The programme builds upon the engineering knowledge and skills developed at first degree level with a stimulating and challenging postgraduate programme of study that will extend your understanding and analytical skills. You will develop a critical awareness of current issues in the field, as informed by ongoing research from LJMU's Built Environment and Sustainable Technologies (BEST) Research Institute.

You will also evaluate the latest research and design methodologies, increase your understanding of ethical issues related to civil engineering, and your responsibilities with regards to sustainable construction.

In addition, you will develop greater understanding of management principles and management strategies and be able to critically evaluate design, construction and operation within the context of both regulation and current developments.

Importantly, you will also be able to apply appropriate technical solutions to the analysis and evaluation of complex design problems.

Please see guidance below on core and option modules for further information on what you will study.
Level 7:
Research Methods
Research Project / Dissertation
Water and Wastewater Treatment
Structural and Earthquake Engineering
Materials Technology
Sustainable Infrastructure
Collaborative BIM Project
PRINCE2®

Further guidance on modules

The information listed in the section entitled ‘What you will study’ is an overview of the academic content of the programme that will take the form of either core or option modules. Modules are designated as core or option in accordance with professional body requirements and internal Academic Framework review, so may be subject to change. Students will be required to undertake modules that the University designates as core and will have a choice of designated option modules. Additionally, option modules may be offered subject to meeting minimum student numbers.

Academic Framework reviews are conducted by LJMU from time to time to ensure that academic standards continue to be maintained. A review is currently in progress and will be operational for the academic year 2016/2017. Final details of this programme’s designated core and option modules will be made available on LJMU’s website as soon as possible and prior to formal enrolment for the academic year 2016/2017.

Please email if you require further guidance or clarification.

Read less
University of Liverpool Department of Engineering
Distance from Liverpool: 0 miles
The growth of biomedical engineering is being driven by the demand for new treatments for diseases for the ageing worldwide population. Read more
The growth of biomedical engineering is being driven by the demand for new treatments for diseases for the ageing worldwide population.

It is the fastest growing engineering discipline worldwide, with a projected 72% increase in biomedical engineering jobs in the USA alone over the next 10 years.

The Biomedical Engineering MSc at the University of Liverpool is at the forefront of advancing these areas.

This MSc combines academic expertise from Engineering, Physics and the Faculty of Health and Life Sciences and offers the ideal opportunity to specialise in biomedical engineering and contribute towards the future development of artificial organs, medical devices and novel treatments.

This programme is suitable for graduates from engineering and physical science disciplines seeking to develop advanced specialist knowledge in biomedical engineering combined with essential research skills. It provides a strong background and advanced learning in the main biomedical engineering areas including biomechanics, imaging, tissue engineering and modelling.

The programme has an annual start date in September and a duration of 12 months. It starts with a set of taught modules with a total weighting of 120 credits, followed by a 60-credit research project. Project work, based on a topic of industrial or scientific relevance, contributes 60 credits. The project is examined by dissertation, and award of the MSc (Eng) degree will require evidence of in-depth understanding, mastery of research techniques and the ability to critically analyse data. Most of the taught modules run over a semester while other modules extend over the whole academic session with the major research project starting in Semester 2 and continuing through the summer. Assessment is by examinations, coursework and an individual dissertation.

Successful completion of all module assessment components and the research project with an average score of at least 50% is required for the award of the MSc degree. For more information or any queries please email .

Read less
Enhance your career prospects with this Masters in Manufacturing Engineering at Liverpool John Moores University. This postgraduate course is accredited by IMechE, meets Chartered Engineer requirements and has close links with industry. Read more
Enhance your career prospects with this Masters in Manufacturing Engineering at Liverpool John Moores University. This postgraduate course is accredited by IMechE, meets Chartered Engineer requirements and has close links with industry.

•Complete this masters degree in one year full time
•Accredited by the Institution of Mechanical Engineers (IMechE) and meets Chartered Engineer requirements
•Study at one the UK’s leading Engineering Schools
•Programme informed by internationally-acclaimed research in LJMU’s General Engineering Research Institute
•Close industry links and excellent career prospects

The MSc programme will equip you with a range of skills and techniques appropriate for companies working in the field of advanced manufacturing and engineering.

These advanced skills will allow you to make an immediate contribution to a company's manufacturing capability and operation, and to ultimately progress into senior management positions.

The course is designed for graduates wishing to reach senior positions as engineers and technical managers in manufacturing process engineering, with particular emphasis on advanced manufacturing technologies and the application of advanced materials.

In addition, it covers quality engineering, logistics and management skills.

This programme builds on experience developed at undergraduate level and provides a progression route for graduates from relevant programmes in mechanical and manufacturing engineering.

Strong links with an Industry Advisory Committee, provide you with the opportunity to become part of local, national and international organisations and their networks.

Please see guidance below on core and option modules for further information on what you will study.

Level 7

Advanced Materials
Optical Measurement and Inspection
Manufacturing Process Engineering
Manufacturing Management
Research Skills
Project Management
Automation Systems
Supply Chain Modelling
MSc Project
Advanced Engineering Design
Operations Research
Safety and Reliability
Alternative Energy Systems
Modelling Matlab and Simulink
Programming for Engineering
LabVIEW

Further guidance on modules

The information listed in the section entitled ‘What you will study’ is an overview of the academic content of the programme that will take the form of either core or option modules. Modules are designated as core or option in accordance with professional body requirements and internal Academic Framework review, so may be subject to change. Students will be required to undertake modules that the University designates as core and will have a choice of designated option modules. Additionally, option modules may be offered subject to meeting minimum student numbers.

Academic Framework reviews are conducted by LJMU from time to time to ensure that academic standards continue to be maintained. A review is currently in progress and will be operational for the academic year 2016/2017. Final details of this programme’s designated core and option modules will be made available on LJMU’s website as soon as possible and prior to formal enrolment for the academic year 2016/2017.

Please email if you require further guidance or clarification.

Read less
University of Liverpool Department of Engineering
Distance from Liverpool: 0 miles
This programme aims to provide you with a sound understanding of Advanced Mechanical Engineering principles and the ability to undertake teamwork and communicate ideas. Read more
This programme aims to provide you with a sound understanding of Advanced Mechanical Engineering principles and the ability to undertake teamwork and communicate ideas.

The core modules studied on the programme will develop your understanding and knowledge of the principles of Advanced Mechanical Engineering to an advanced level. They include specialist knowledge in thermo and fluid dynamics, combustion in IC engines, alternative and conventional energy generation methods and nuclear engineering. You will be taught techniques for managing projects and research, giving you highly desirable skills for working in industry.

This programme aligns with the current accredited Undergraduate integrated Masters MEng 4th year in Mechanical Engineering with co-taught M level modules from the existing programme organised in two 12-week semesters with examinations at the end of each semester worth 120 credits from a total of 180. This is then combined with an MSc advanced research project over the summer term worth the remaining 60 credits.

Projects

Project work which contributes 60 credits, will be based on a topic of industrial or scientific relevance, and will be carried out in laboratories in the University or at an approved placement in industry. The project is examined by dissertation, and award of the MSc (Eng) degree will require evidence of in-depth understanding, mastery of research techniques, ability to analyse assembled data, and assessment of outcomes.

Why School of Engineering?

In the Research Excellence Framework 2014, our research was ranked 5th in UK for 4* and 3* research (world leading and internationally excellent research)

Our teaching programmes are also highly rated and this is underpinned by an extensive programme of research.

Outstanding facilities

The School of Engineering has a welldeserved and highly respected reputation for its excellent experimental and computational facilities. Our £32 million redevelopment includes the state-of-theart ‘Active Learning Labs’, a cutting-edge teaching facility, one of the largest and best equipped in Europe. We have two research-standard full motion flight simulators (one of which is unique in the academic world), mechanical robotics, wind turbines, water flumes, additive layer manufacturing and many more facilities.

Career prospects

We equip our students for rewarding careers and our graduates have found jobs in a wide range of industries and organisations, both in the UK and abroad.

Programmes include a strong practical element and incorporate the latest academic and industry research, enabling you to work effectively at the forefront of engineering.

When you graduate you can count on the University's Careers and Employability Service to help you plan your future.

Employers

We've consistently achieved the highest grades in research assessments and many of our research programmes are supported by industrial companies such:-

- Agusta Westland
- Airbus
- BAE Systems
- QinetiQ
- Unilever
- Jaguar
- Ford
- National and international bodies such as EPSRC and the European Commission.

Read less
Gain IET accreditation on this Electrical Power and Control Engineering Masters at Liverpool John Moores University. This course meets Chartered Engineer requirements and the demand for postgraduates in this growing global industry. Read more
Gain IET accreditation on this Electrical Power and Control Engineering Masters at Liverpool John Moores University. This course meets Chartered Engineer requirements and the demand for postgraduates in this growing global industry

•Complete this masters degree in one year full time
•Study at one the UK’s leading Engineering Schools
•Programme informed by internationally-acclaimed research from LJMU’s Electrical and Electronic Engineering Research Centre
•Postgraduates of this course highly sought after by major UK and international employers

This MSc degree programme provides an excellent progression point from undergraduate courses in the area of electrical engineering. You can also complete the course as development and to specialise in the Electrical Power and Control Engineering field.

Did you know that there is growing demand for electrical power engineers in the energy, automotive, and process industries? You could be involved in the design and development of electrical systems, such as those found in hybrid vehicles, cooling systems and aircraft actuators or the generation, distribution, regulation and conversion of electrical power.
You’ll develop advanced analytical and experimental skills to design new power and control systems and learn how to critically analyse designs, their functionality and expected reliability.
It will also be important for you to gain a strong understanding of the capabilities and limitations of modelling and simulation tools.

The expertise and laboratories available are aligned to the new sources of energy, green energy and the energy saving industry. LJMU specialist facilities support investigation into wind power electricity generation, where wider penetration of remote off-shore wind farm installations is expected in near future and multi-phase systems have many advantages.
The programme design provides opportunities to practice communication skills at Chartered Engineer level. You’ll gain the professional behavioural traits to prepare you for technical and management roles in power and control engineering.

Please see guidance below on core and option modules for further information on what you will study.
Level 7
Modelling and Control of Electric Machines and Drives
Control Systems
Dynamic Systems Simulation
Digital Control Power Systems Modelling
Analysis Alternative Energy Systems Modelling with Matlab and Simulink
MSc Project
Operations Research
Safety Reliability
Project Management
Programming for Engineering
LabVIEW
Professional and Leadership Skills

Further guidance on modules

The information listed in the section entitled ‘What you will study’ is an overview of the academic content of the programme that will take the form of either core or option modules. Modules are designated as core or option in accordance with professional body requirements and internal Academic Framework review, so may be subject to change. Students will be required to undertake modules that the University designates as core and will have a choice of designated option modules. Additionally, option modules may be offered subject to meeting minimum student numbers.

Academic Framework reviews are conducted by LJMU from time to time to ensure that academic standards continue to be maintained. A review is currently in progress and will be operational for the academic year 2016/2017. Final details of this programme’s designated core and option modules will be made available on LJMU’s website as soon as possible and prior to formal enrolment for the academic year 2016/2017.

Please email if you require further guidance or clarification.

Read less
Make global connections on this Masters course in Architectural Engineering at Liverpool John Moores University. Learn about sustainable technologies and improving building performance through design at postgraduate level to enhance your career. Read more
Make global connections on this Masters course in Architectural Engineering at Liverpool John Moores University. Learn about sustainable technologies and improving building performance through design at postgraduate level to enhance your career.

•Course available to study full time (1 year) and part time (2 years)
•Designed as a specialist Masters course for holders of first degrees in architecture and architectural technology, construction management, engineering and related built environment disciplines
•Part time option if you are already in employment
•Opportunity to engage in multi-disciplinary project work
•Internationally recognised research in our Built Environment and Sustainable Technologies (BEST) Research Institute

This new MSc programme aims to develop your range of knowledge, understanding and practical skills, including CAD software. Your Masters skills will help you progress in a variety of roles within the built environment sector.

You will have the training to become a problem-solving architectural engineer or architectural technologist who is able to work in a multi-disciplinary environment and produce creative, sustainable design solutions to an advanced standard.

You will:

•extend your understanding of current and emerging sustainable technology and practices
•develop analytical, critical and problem solving skills appropriate to evaluating and improving building performance with design solutions
•have clear career development opportunities in areas allied to architectural engineering, technology and management
•develop your skills as an independent researcher and creative problem solver in the architectural engineering sector

When you graduate you will be able to:

•demonstrate knowledge of the fundamental concepts and principles of architectural engineering as a sustainable built environment discipline
•demonstrate critical understanding of the implications of design, environmental and management issues of information modelling that are relevant to architectural engineers
•apply appropriate technical solutions following the analysis and evaluation of complex design problems
•use CAD software proficiently for architectural engineering purposes

Please see guidance below on core and option modules for further information on what you will study.
Level 7

Building Design Suite
Building Engineering and Detailing
Sustainable Design
Integrated BIM Theory
Collaborative BIM Project
Integrated BIM in Practice
Research Methods
Dissertation

Further guidance on modules

The information listed in the section entitled ‘What you will study’ is an overview of the academic content of the programme that will take the form of either core or option modules. Modules are designated as core or option in accordance with professional body requirements and internal Academic Framework review, so may be subject to change. Students will be required to undertake modules that the University designates as core and will have a choice of designated option modules. Additionally, option modules may be offered subject to meeting minimum student numbers.

Academic Framework reviews are conducted by LJMU from time to time to ensure that academic standards continue to be maintained. A review is currently in progress and will be operational for the academic year 2016/2017. Final details of this programme’s designated core and option modules will be made available on LJMU’s website as soon as possible and prior to formal enrolment for the academic year 2016/2017.

Please email if you require further guidance or clarification.

Read less
This Masters in Mechanical Engineering is accredited by IMechE and meets Chartered Engineer status. Study with Liverpool John Moores University, master modern CAD software and progress quickly as a postgraduate in this exciting industry. Read more
This Masters in Mechanical Engineering is accredited by IMechE and meets Chartered Engineer status. Study with Liverpool John Moores University, master modern CAD software and progress quickly as a postgraduate in this exciting industry

•Complete this masters degree in one year (full time)
•Accredited by the Institution of Mechanical Engineers, this programme meets Chartered Engineer requirements
•Study at one the UK’s leading Engineering Schools
•Close industry links and programme widely recognised by employers as meeting requirements needed to succeed in the industry
•Excellent career opportunities with consultancies, government bodies and public utilities as well as technical design and mechanical engineer roles


The Mechanical Engineering MSc course is designed so that you can reach senior positions as engineers and technical managers within your career. There is a focus on advanced engineering design, analysis techniques and delivering high quality project results.

The programme adds more depth to experience you may develop within undergraduate Mechanical Engineering degrees and provides a progression route if you have graduated from other relevant programmes in mechanical and manufacturing engineering.

There is a strong emphasis on applying practical analysis tools using industry standard software. Examples of specialist projects include modelling non-linear behaviour in deformed components using Finite Stress Analysis (FSA) and solving complex problems using Computational Fluid Dynamics (CFD).

You will learn advanced analytical and experimental skills so that you can design new processes, products and services when you graduate. You will gain the skills to critically analyse existing designs, their functionality and reliability.

The course incorporates many opportunities for acquiring the communications and managerial skills expected at Chartered Engineer status level. Graduating from the programme will also provide you with a sound academic base for further study in the future.

Read less
University of Liverpool Department of Engineering
Distance from Liverpool: 0 miles
With the ever increasing environmental challenges, there is strong demand for civil and structural engineers who are practically-skilled in efficient design, green construction and sustainable development and who can play a central role in achieving sustainable adaptation to and mitigation of these challenges. Read more
With the ever increasing environmental challenges, there is strong demand for civil and structural engineers who are practically-skilled in efficient design, green construction and sustainable development and who can play a central role in achieving sustainable adaptation to and mitigation of these challenges.

The Sustainable Civil and Structural Engineering MSc (Eng) programme provides a specialist, technical Masters-level education in civil and structural engineering.

The programme is designed to embed the knowledge, skills and understanding required to critically assess the function, use and impacts of concrete, steel and alternative construction materials in structural designs and to participate in the design, implementation and evaluation of engineering projects which are truly sustainable, bringing social, economic and environmental benefits to current future generations.

The Sustainable Civil and Structural Engineering MSc (Eng) provides an opportunity for you to develop advanced specialist knowledge in structural engineering, understand how to address the increasing challenges for the industry and develop your skills for the working environment.

The programme is pending accreditation by the Institution of Civil Engineers, the Institution of Structural Engineers, the Chartered Institution of Highways and Transportation and the Institute of Highway Engineers. This programme can also be studied part-time over two years. The same modules are followed and the same total credits are achieved, but these are spread over four semesters at 30 credits per semester. The independent research project (module ENGG660) is chosen in the first year, but the completion deadline is not until the end of the second year, allowing flexibility in timing and distribution of effort over the full duration of the course.

This 12-month programme consists of taught modules over two semesters and a major project starting in semester 2 and continuing through the summer. Assessment is by examinations, coursework and an individual dissertation. Places on the programme are limited to between 15 and 20.

Projects

Project work, based on a topic of industrial or scientific relevance, contributes 60 credits and is carried out in laboratories in the University or at an approved placement in industry. The project is examined by dissertation, and award of the MSc (Eng) degree will require evidence of in-depth understanding, mastery of research techniques, ability to analyse assembled data, and assessment of outcomes.

Read less
University of Liverpool Department of Engineering
Distance from Liverpool: 0 miles
Through this MSc programme, you will develop an understanding of the core subjects in Advanced Aerospace Engineering, along with knowledge and skills in mathematics, computing, design and business studies. Read more
Through this MSc programme, you will develop an understanding of the core subjects in Advanced Aerospace Engineering, along with knowledge and skills in mathematics, computing, design and business studies. Additionally, you will develop the wider transferable skills of analysis, problem-solving, communication and team-working.

A postgraduate degree in Advanced Aerospace Engineering is the basis for a career in a profession that offers an extremely wide choice of employment opportunities. Graduates will also understand the Engineer’s role within industry in the UK, Europe and the rest of the world.

The programme is suitable for people with an Engineering background wishing to gain a masters level qualification for a professional career route or those with a physical science background seeking to change disciplines to broaden their employment opportunities.

This programme aligns with the current accredited Undergraduate integrated Masters MEng 4th year in Aerospace Engineering with co-taught M level modules from the existing programme organised in two 12-week semesters with examinations at the end of each semester worth 120 credits from a total of 180. This is then combined with an MSc advanced research project over the summer term worth the remaining 60 credits.

Projects

Project work which contributes 60 credits, will be based on a topic of industrial or scientific relevance, and will be carried out in laboratories in the University or at an approved placement in industry. The project is examined by dissertation, and award of the MSc(Eng) degree will require evidence of in-depth understanding, mastery of research techniques, ability to analyse assembled data, and assessment of outcomes.

Read less
The world demand for energy, in particular electricity, will increase significantly over the next decade and beyond. There are many challenges to be addressed in order to meet this ever-increasing demand, electrical and electronic engineers will provide key solutions to these problems. Read more
The world demand for energy, in particular electricity, will increase significantly over the next decade and beyond. There are many challenges to be addressed in order to meet this ever-increasing demand, electrical and electronic engineers will provide key solutions to these problems.

There are tremendous opportunities for us to make a significant impact that will shape the future, and this programme has been carefully designed and developed for this.

Our degree programmes are developed with industry partners to provide you with a career focused degree.

This programme provides you with an in-depth knowledge of the electrical power generation, transmission, distribution and networks. The operating principles, monitoring, optimisation and control of modern power systems are discussed in detail.

The environmental challenges, renewable energy generation, smart grid, high voltage power engineering and research and management skills are also addressed in this one-year programme. In addition, site visit and practical sessions are included. The programme has been carefully developed for graduates with electrical/electronic or related backgrounds to meet the increasing demand from the energy and power industry.

Projects

Project work contributes 60 credits, which will be based on a topic of industrial or scientific relevance, and will be carried out in laboratories in the University or at an approved placement in industry. The project is examined by oral presentation and dissertation, and award of the MSc (Eng) degree will require evidence of in-depth understanding, mastery of research techniques, ability to analyse assembled data, and assessment of outcomes.

Why Electrical Engineering and Electronics?

World-class facilities, including top industry standard laboratories

We have specialist facilities for processing semiconductor devices, optical imaging spectroscopy and sensing, technological plasmas, equipment for testing switch gear, specialist robot laboratories, clean room laboratories, e-automation, RF Engineering, bio-nano engineering labs and excellent mechanical and electrical workshops.

A leading centre for electrical and electronic engineering expertise

We are closely involved with over 50 prominent companies and research organisations worldwide, many of which not only fund and collaborate with us but also make a vital contribution to developing our students.

Career prospects

Our postgraduate students get to be a part of the cutting edge research projects being undertaken by our academic staff.

Here are some of the areas these projects cover:-

Molecular and semiconductor integrated circuit electronics
Technological plasmas
Communications
Digital signal processing
Optoelectronics
Nanotechnology
Robotics
Free electron lasers
Power electronics
Energy efficient systems
E-Automation
Intelligence engineering.

You'll get plenty of industry exposure too. Our industrial partners include ARM Holdings Plc, a top 200 UK company that specialises in microprocessor design and development.

As a result our postgraduates have an impressive record of securing employment after graduation in a wide range of careers not limited to engineering.

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On this well-established MSc programme you willdevelop advanced knowledge and skills in key aspects of telecommunications and wireless systems. Read more
On this well-established MSc programme you willdevelop advanced knowledge and skills in key aspects of telecommunications and wireless systems.

The course content is updated annually to maintain industry relevance and to reflect the latest developments in the industry.

We cover the following core (compulsory) topics during the MSc:

- Embedded computer systems
- Digital system design
- IC design
- Microprocess systems
- Research skills and project management.

Part-time study is in co-operation with the students’ employers. Please contact the Programme Director before applying.

Projects

Your project work will earn you 60 credits towards your MSc degree. The project's examined by oral presentation and dissertation.

In your work you'll need to demonstrate an in-depth understanding of your topic, mastery of research techniques, and the ability to analyse assembled data and assess outcomes.

Why Electrical Engineering and Electronics?

World-class facilities, including top industry standard laboratories

We have specialist facilities for processing semiconductor devices, optical imaging spectroscopy and sensing, technological plasmas, equipment for testing switch gear, specialist robot laboratories, clean room laboratories, e-automation, RF Engineering, bio-nano engineering labs and excellent mechanical and electrical workshops.

A leading centre for electrical and electronic engineering expertise

We are closely involved with over 50 prominent companies and research organisations worldwide, many of which not only fund and collaborate with us but also make a vital contribution to developing our students.

Career prospects

Our postgraduate students get to be a part of the cutting edge research projects being undertaken by our academic staff.

Here are some of the areas these projects cover:-

Molecular and semiconductor integrated circuit electronics
Technological plasmas
Communications
Digital signal processing
Optoelectronics
Nanotechnology
Robotics
Free electron lasers
Power electronics
Energy efficient systems
E-Automation
Intelligence engineering.

You'll get plenty of industry exposure too. Our industrial partners include ARM Holdings Plc, a top 200 UK company that specialises in microprocessor design and development.

As a result our postgraduates have an impressive record of securing employment after graduation in a wide range of careers not limited to engineering.

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This MSc programme will develop your knowledge and skills to an advanced level in key aspects of telecommunications and wireless systems. Read more
This MSc programme will develop your knowledge and skills to an advanced level in key aspects of telecommunications and wireless systems.

The course content is updated annually to maintain industry relevance and to reflect the latest developments in the industry.

This programme can be studied full- or parttime. The first two sections consist of lectures, laboratory classes and seminars, with a final section devoted to an individually supervised project.

You will study the following core (compulsory) topics during the MSc:

- Wireless systems and designs
- Communication networks and security
- Research skills and management
- Signal processing
- Cellular radio communications systems related topics.

In addition you can choose from the following options to take account of your interests:

- Optical fibre systems
- Radio propagation and antennas
- Communication signal processing
- Neural networks
- Integrated circuit design.

Part-time study is in co-operation with the students’ employers. Please contact the Programme Director before applying.

Projects

Your project work will earn you 75 credits towards your MSc degree. This includes 15 credits allocated to course work relating to report-writing skills. The project's examined by dissertation.

In your work you'll need to demonstrate an in-depth understanding of your topic, mastery of research techniques, and the ability to analyse assembled data and assess outcomes.

Why Electrical Engineering and Electronics?

World-class facilities, including top industry standard laboratories

We have specialist facilities for processing semiconductor devices, optical imaging spectroscopy and sensing, technological plasmas, equipment for testing switch gear, specialist robot laboratories, clean room laboratories, e-automation, RF Engineering, bio-nano engineering labs and excellent mechanical and electrical workshops.

A leading centre for electrical and electronic engineering expertise

We are closely involved with over 50 prominent companies and research organisations worldwide, many of which not only fund and collaborate with us but also make a vital contribution to developing our students.

Career prospects

Our postgraduate students get to be a part of the cutting edge research projects being undertaken by our academic staff.

Here are some of the areas these projects cover:-

Molecular and semiconductor integrated circuit electronics
Technological plasmas
Communications
Digital signal processing
Optoelectronics
Nanotechnology
Robotics
Free electron lasers
Power electronics
Energy efficient systems
E-Automation
Intelligence engineering.

You'll get plenty of industry exposure too. Our industrial partners include ARM Holdings Plc, a top 200 UK company that specialises in microprocessor design and development.

As a result our postgraduates have an impressive record of securing employment after graduation in a wide range of careers not limited to engineering.

Read less
Explore the latest electrical engineering and process control techniques through this Masters in Microelectronic Systems Design. This postgraduate course is accredited by IET and meets Chartered Engineer status. Read more
Explore the latest electrical engineering and process control techniques through this Masters in Microelectronic Systems Design. This postgraduate course is accredited by IET and meets Chartered Engineer status.

•Complete this masters degree in one year (full time)
•Accredited by the Institution of Engineering and Technology (IET), the course meets Chartered Engineer status requirements
•Study at one the UK’s leading Engineering Schools
•Programme informed by internationally-acclaimed research
•Close industry links
•Excellent career opportunities in roles such as system designers, analysts, and senior engineers in the fields of electrical engineering, process control, and related industries

This Masters course will equip you with the technical and management skills you need to progress to senior professional positions, specialising in the design, fabrication and testing of microelectronic devices.

You will study the fundamental principles that drive future developments in microelectronics. We offer the opportunity to develop the critical, analytical and experimental skills to solve practical problems and work at the cutting edge of this rapidly developing field.

You’ll learn how to critically analyse designs, their functionality and expected reliability and it will also be important for you to gain a strong understanding of the capabilities and limitations of modelling and simulation tools.

The programme design provides opportunities to practice communication skills at Chartered Engineer level. You’ll gain sought after professional behavioural traits to prepare you for technical and management roles in microelectrical system design.

You will also undertake an individual project giving the opportunity to focus on your area of interest, working with our world-leading researchers.

Please see guidance below on core and option modules for further information on what you will study.
Level 7
Dynamic systems simulation
Microelectronic systems design
VLSI devices, fabrication and testing
Embedded systems
VLSI design
Research skills
Modelling with Matlab and Simulink
MSc project
Advanced single processing
Operations research
Safety and reliability
Project management
Programming for engineering
LabVIEW
Professional and leadership skills

Further guidance on modules

The information listed in the section entitled ‘What you will study’ is an overview of the academic content of the programme that will take the form of either core or option modules. Modules are designated as core or option in accordance with professional body requirements and internal Academic Framework review, so may be subject to change. Students will be required to undertake modules that the University designates as core and will have a choice of designated option modules. Additionally, option modules may be offered subject to meeting minimum student numbers.

Academic Framework reviews are conducted by LJMU from time to time to ensure that academic standards continue to be maintained. A review is currently in progress and will be operational for the academic year 2016/2017. Final details of this programme’s designated core and option modules will be made available on LJMU’s website as soon as possible and prior to formal enrolment for the academic year 2016/2017.

Please email if you require further guidance or clarification.

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