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Masters Degrees (Aerospace Systems Engineering)

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Engineers are the key to the development of society and solving the problems the world currently faces. They have the power to make the world fundamentally different. Read more
Engineers are the key to the development of society and solving the problems the world currently faces. They have the power to make the world fundamentally different.

The Master of Advanced Engineering is the key transitional stage in your career, transforming you into a global leader. Gain a depth of knowledge, mastering the crucial skills to become a leading contributor in your field.

Customise your degree - the Master of Advanced Engineering offers flexibility to complete your Master degree in just one year, or you can choose a two year option.

This course is designed to extend your knowledge in your chosen specialisation area and advance your leadership and complex problem-solving skills in a cross cultural environment.

Understand, reflect critically upon and apply methods in at least one specialist engineering area to design solutions to complex, multifaceted engineering problems.

Common core units will develop crucial skills in areas such as data analysis and entrepreneurship, translating theory into engineering practice. In discipline core units you will identify, interpret and critically appraise current developments and technologies within your specialisation.

Enhancement units are designed to provide breadth and are taken from either another engineering specialisation or in complementary areas such as information technology and business.

In addition, the two year version of the program offers a range of technical electives that will deepen your understanding of a specific topic, and two, year- long engineering project units. You will work closely with an academic on a topic of your choice and immerse yourself in a multidisciplinary design project.

The Master of Advanced Engineering could also be your stepping stone to a research degree. All of this in highly interactive, expert led classes.

Visit the website http://www.study.monash/courses/find-a-course/2016/advanced-engineering-e6001?domestic=true

Overview

Please select a specialisation for more details:

Chemical engineering

Your qualification will be a Master of Advanced Chemical Engineering

Please note that this specialisation is available only in Clayton.

The Master of Advanced Chemical Engineering allows you to engage in the areas of study including advanced reaction engineering, process design and optimization, conversion of bioresources into fuel, materials and specialty chemicals, and nanostructured membranes for sustainable separations and energy production with an emphasis on the latest developments in the field. In this course, you will develop specialised knowledge and skills that are important to Chemical Engineers in industry and research. This course provides graduates with enhanced opportunities for advancement in their careers.

Civil engineering (Infrastructure systems)

Your qualification will be a Master of Advanced Civil Engineering (Infrastructure Systems)

The Master of Advanced Civil Engineering (Infrastructure Systems) will equip graduates to work with in the area of infrastructure engineering and management. It will provide the fundamental knowledge associated with interfacing both structural and geotechnical designs for infrastructure systems. The program is designed to equip you with advanced skills necessary for managing the challenges posed by ageing and leading designs of new complex infrastructure systems. The course is suitable for new graduates, professionals and managers who are keen to upgrade their existing design and management skills, as well as to develop theoretical and applied knowledge in the area of infrastructure engineering and management.

Civil engineering (Transport)

Your qualification will be a Master of Advanced Civil Engineering (Transport)

Please note that this specialisation is available only in Clayton.

The Master of Advanced Civil Engineering (Transport) program deals with the fundamental knowledge associated with transport engineering and management, traffic engineering, intelligent transport systems and transport planning. The program in is a response to the growing need for engineers with broad awareness of the characteristics and significance of transport, including its technological, economic and social impact. At the same time, the program outlines the state-of-the-art of transport engineering, as it may be applied to the solution of real problems in the planning, design, management and operation of transport facilities. The course is suitable for new graduates, professionals and managers who are keen to upgrade their existing design and management skills as well as to develop theoretical and applied knowledge in the area of transport engineering and management.

Civil engineering (Water)

Your qualification will be a Master of Advanced Civil Engineering (Water)

Please note that this specialisation is available only in Clayton.

The Master of Advanced Civil Engineering (Water) allows you to major in water resources engineering and management. This program deals with the fundamental knowledge associated with surface and ground water flow, stormwater management, water quality, flood forecasting and mitigation. The program is designed to equip you with advanced skills necessary for managing the challenges posed by changing climatic condition on water resource management. The course is suitable for new graduates, professionals and managers who are keen to upgrade their existing design and management skills as well as to develop theoretical and applied knowledge in the area of water resources engineering and management.

Electrical engineering

Your qualification will be a Master of Advanced Electrical Engineering

Please note that this specialisation is available only in Clayton.

The Master of Advanced Electrical Engineering will give you a broad introduction to advanced techniques in signal processing, communications, digital systems and electronics. The units have been chosen around the common theme of embedded systems: special purpose computing systems designed for specific applications. They are found just about everywhere including in consumer electronics, transportation systems, medical equipment and sensor networks. The course will mix theory and practice and will contain a significant amount of hands-on learning in laboratories and team-based design projects.

Energy and sustainability engineering

Your qualification will be a Master of Advanced Engineering (Energy and Sustainability)

Please note that this specialisation is available only in Malaysia.

The Master of Advanced Engineering (Energy and Sustainability) is designed for qualified engineers keen to deepen their knowledge in the energy and sustainability area. The course provides foundations in general engineering through engineering analysis and entrepreneurship units. Students can major in this program by examining energy and sustainability area from a multi-disciplinary perspective. Students can also choose elective units such as environment and air pollution control and smart grids to further enhance their knowledge in this area or undertake a minor research work to pursue a topic of interest related to this area.

Materials engineering

Your qualification will be a Master of Advanced Materials Engineering

Please note that this specialisation is available only in Clayton.

The Master of Advanced Materials Engineering encompasses practical aspects of the key classes of materials such as metals, polymers, biomaterials, nanomaterials and energy-related materials. This program particularly focuses on the most up-to-date aspects of the field, along with the utilisation of materials and their electronic, chemical and mechanical properties as underpinned by the microstructures that are revealed by modern characterisation techniques. This program is designed to prepare students to appreciate and exploit the central role of materials in addressing the present technical, economic and environmental problems involved in the design and construction of engineering structures, processes and devices. This course is ideally suited for new graduates as well as professional engineers who are eager to advance their applied knowledge in the area of Materials Engineering.

Mechanical engineering

Your qualification will be a Master of Advanced Mechanical Engineering

Please note that this specialisation is available only in Clayton.

Most modern engineering projects are multidisciplinary in nature and require a broad range of skills, proficiencies and perspectives to accomplish the task. The Master of Advanced Mechanical Engineering takes a systems approach to the design, monitoring and performance of complex mechanical engineering systems in the fields of renewable energy, aerospace, buildings, transportation, and biomedical devices. The systems approach also permeates the design of the course: four discipline-based core units are vertically integrated so that common problems are examined from different perspectives, culminating in a sustainable systems unit.

For more information visit the faculty website - http://www.study.monash/media/links/faculty-websites/engineering

Find out how to apply here - http://www.study.monash/courses/find-a-course/2016/advanced-engineering-e6001?domestic=true#making-the-application

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Visit our website for more information on fees, scholarships, postgraduate loans and other funding options to study Aerospace Engineering at Swansea University - 'Welsh University of the Year 2017' (Times and Sunday Times Good University Guide 2017). Read more

Visit our website for more information on fees, scholarships, postgraduate loans and other funding options to study Aerospace Engineering at Swansea University - 'Welsh University of the Year 2017' (Times and Sunday Times Good University Guide 2017).

Aerospace Engineering at Swansea University has a distinguished history of working with aerospace companies around the world. As a student on the MSc Aerospace Engineering, you will be provided with a systematic understanding of the advanced knowledge, critical awareness and new insights required by effective practising aerospace engineers.

The MSc Aerospace Engineering degree is based on the world-class expertise available in the Materials Engineering Centre and the Zienkiewicz Centre for Computational Engineering.

At Swansea, world-class aerospace research drives excellent teaching within a cutting-edge learning environment with state-of-the-art facilities. The MSc Aerospace Engineering course prepares you for the design, analysis, testing and flight of the full range of aeronautical vehicles, including propeller-driven and jet-powered planes, helicopters and gliders.

Students on the Aerospace Engineering course will gain hands-on experience through access to one of the world’s most advanced engineering flight simulators housed within the College of Engineering. The MSc Aerospace Engineering course at Swansea University is accredited by the Institution of Mechanical Engineers (IMechE), the Royal Aeronautical Society (RAeS), and the Institution of Engineering Designers (IED).

Modules on the Aerospace Engineering course typically include:

Finite Element Computational Analysis

Composite Materials

Flight Dynamics and Control

Advanced Airframe Structure

Advanced Aerodynamics

Numerical Methods for Partial Differential Equations

Aerospace Materials Engineering

Group Project

Research Dissertation

MSc Dissertation - Aerospace Engineering

Student Quotes

“After passing all the modules on the MSc Aerospace Engineering course, I had the possibility to develop my final thesis in an industrial environment. I learnt about avionics and electronic equipment and developed team work and communication skills.

My favourite memory of the MSc Aerospace Engineering course is our team winning the International Aircraft Design and Handling competition. Our effort really paid off when we won the first prize!

Before starting my final thesis, I found a job as an Applications Engineer in one of the most important aerospace engineering companies, MTorres. Personally, I think obtaining a Master’s degree in a university with a great reputation such as Swansea University makes it much easier to find a job.

Swansea University provides a fantastic opportunity to study any field of engineering due to the professional and friendly staff.”

Roberto Morujo, MSc Aerospace Engineering

Links with Industry

Aerospace Engineering at Swansea University has a distinguished history of working with aerospace companies around the world, including:

BAE Systems

Rolls Royce

EADS

Airbus

We have also contributed to many exciting projects, from the super-jet Airbus A380 to the 1,000mph land-speed record breaking BLOODHOUND SSC.

Careers

The MSc Aerospace Engineering course is suitable for those who would like to gain comprehensive knowledge, understanding and skills that will enable them to contribute to the creation and maintenance of aerospace and aeronautical equipment.

The MSc Aerospace Engineering course covers the necessary aspects for a successful career in the growing aerospace industry.

Facilities

Our new home at the innovative Bay Campus provides some of the best university facilities in the UK, in an outstanding location.

Aerospace Engineering at Swansea University has a wide range of in-house facilities ranging from computer labs housing state-of-the-art PCs through to specialist equipment used almost exclusively by aerospace students.

Practical flying experience on the MSc Aerospace Engineering course is gained from the state-of-the-art Merlin MP521X engineering flight simulator mounted on a six axis hydraulic motion system and flying experience at a local airport.

Research

The Research Excellence Framework (REF) 2014 ranks Engineering at Swansea as 10th in the UK for the combined score in research quality across the Engineering disciplines.

The REF assesses the quality of research in the UK Higher Education sector, assuring us of the standards we strive for.

World-Leading Research

The REF shows that 94% of research produced by our academic staff is of World-Leading (4*) or Internationally Excellent (3*) quality. This has increased from 73% in the 2008 RAE.

Research pioneered at the College of Engineering harnesses the expertise of academic staff within the department. This ground-breaking multidisciplinary research informs our world-class teaching with several of our staff leaders in their fields.



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Aerospace systems are the future of the aerospace industry and constitute the major component of all modern aircraft. They are the essential onboard systems that ensure the safe and accurate operation of all aerospace vehicles, from civil passenger planes to sophisticated unmanned aerial vehicles. Read more
Aerospace systems are the future of the aerospace industry and constitute the major component of all modern aircraft. They are the essential onboard systems that ensure the safe and accurate operation of all aerospace vehicles, from civil passenger planes to sophisticated unmanned aerial vehicles.

Why this programme

◾The University of Glasgow has been the home of Aerospace Research for over 60 years. This long-standing activity has culminated in the Division of Aerospace Sciences having internationally recognised expertise in all areas of Aeronautics and Aerospace Systems.
◾The University of Glasgow is one of the few institutions in the UK, and the only University in Scotland, to offer an Aerospace Systems MSc.
◾Aeronautical engineering at the University of Glasgow is consistently highly ranked recently achieving 10th in the UK and 1st in Scotland (Complete University Guide 2017).
◾If you are an aeronautical engineering or avionics graduate wanting to improve your skills and knowledge; a graduate of another engineering discipline, mathematics or physics and you want to change field; looking for a well-rounded postgraduate qualification in electronics & electrical engineering to enhance your career prospects; this programme is designed for you.
◾Students in this programme can benefit from access to our outstanding facilities: including several wind tunnels, a flight simulation lab, an autonomous unmanned vehicle (UAV) laboratory, helicopter test rig laboratories and computer labs for modelling and simulation.

Programme structure

Modes of delivery of the MSc in Aerospace Systems include lectures, seminars and tutorials and allow students the opportunity to take part in lab, project and team work.

The summer period is dedicated to project work, with either academic or industrial placements providing the context for your project.

Semester 1 core courses
◾Aircraft flight dynamics
◾Control M
◾Navigation systems
◾Simulation of aerospace systems
◾Space flight dynamics 1.

Semester 2 core courses
◾Autonomous vehicle guidance systems
◾Fault detection, isolation and reconfiguration
◾Radar and electro-optic systems
◾Robust control 5.
◾Aerospace systems team design project.

Projects

◾To complete the MSc degree you must undertake a project worth 60 credits.
◾The project will integrate subject knowledge and skills that you acquire during the MSc programme
◾The project is an important part of your MSc where you can apply your newly learned skills and show to future employers that you have been working on cutting edge projects relevant to the industry.
◾You can choose a topic from a list of MSc projects in Aerospace Systems. Alternatively, should you have your own idea for a project, department members are always open to discussion of topics

Example projects

Examples of projects can be found online

*Posters shown are for illustrative purposes

Accreditation

MSc Aerospace Systems is accredited by the Royal Aeronautical Society (RAeS)

Industry links and employability

◾You will be introduced to this exciting multi-disciplinary area of technology, gaining expertise in autonomous guidance and navigation, advanced aerospace control, simulation and simulators, fault detection and isolation, electro-optic and radar systems, and space systems.
◾The School of Engineering has extensive contacts with industrial partners who contribute to several of their taught courses, through active teaching, advising on projects, curriculum development, and panel discussion.
◾During the programme students have an opportunity to develop and practice relevant professional and transferrable skills, and to meet and learn from employers about working in the aerospace industry.

Career prospects

Career opportunities include aerospace, defence, laser targeting systems, radar development, electro-optics, autonomous systems and systems modelling.

Graduates of this programme have gone on to positions such as:
Software Engineer at Hewlett-Packard
Avionic and Mission System Engineer at Qinetiq
Engineering Corporal & Driver at Hellenic Army.

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The School of Mechanical, Aerospace and Civil Engineering has a strong and unique tradition in the UK in Aerospace Design, Helicopters, Heat Transfer, Aerodynamics, Computational Fluid Dynamics and Flow Diagnostics. Read more

The School of Mechanical, Aerospace and Civil Engineering has a strong and unique tradition in the UK in Aerospace Design, Helicopters, Heat Transfer, Aerodynamics, Computational Fluid Dynamics and Flow Diagnostics. This course builds on those strengths and exploits our links with BAe Systems, Airbus, Rolls-Royce, DSTL, USAF, North West Aerospace Alliance, North West Development Agency and SBAC.

This MSc aims to produce high quality graduates with specialist training in aerospace engineering who will be suitable for employment in the engineering industries and consultancies linked to that industry. Aerospace engineering graduates are highly valued and are currently in great demand and the Manchester programme specifically seeks to serve this growing industry requirement. The programme is suitable for engineering and science graduates, as well as engineering professionals working in technical and commercial management. The programme is also well designed to be used for conversion toAerospace Engineering from some close enough specialities such as Mechanics, Mathematics and Physics.

Teaching and learning

The Aerospace Engineering MSc  is a full time course which is studied over 12 months and there is one start date each year in September. You will develop advanced technical skills in Aerospace Engineering that will enable you to pursue a career in both general and specialised engineering industries or develop an in depth knowledge for a career in research in industry or academia.

For further information about the course content, please see the example  programme structure .

Disability support

Practical support and advice for current students and applicants is available from the Disability Advisory and Support Service. Email: 

Career opportunities

The Aerospace Engineering MSc has a strong focus on employability to support you to take control of your future and give yourself the best chance of securing your ideal job after graduation.

Each year Manchester careers fairs, workshops and presentations attract more than 600 exhibitors and 20,000 visitors to target Manchester graduates.

After graduating with an Aerospace Engineering MSc you will be in a strong position to seek employment with companies such as: Airbus, Rolls Royce, GE Aviation, Airbus, Bombardier Transportation, BAe Systems, MBDA, SAFRAN, GKN Aerospace, Spirit, Finmeccanica, EDF, BP, Schlumberger, etc.

The UK Aerospace Engineering is 2nd largest in the world and around 30% of companies in the Aerospace sector currently have vacancies. 

Destination of Leavers Survey

Past graduates have found employment in:

  • Airframe manufacturers
  • Gas turbine and aircraft systems industries
  • Defence laboratories
  • Consultancy and management
  • Postgraduate research

Accrediting organisations

Two highly established organisations, the  Royal Aeronautical Society  and Institution of Mechanical Engineers , have accredited the Aerospace Engineering MSc course under license from the UK regulator, the Engineering Council . This allows satisfactory completion of the Aerospace Engineering MSc to contribute towards the academic requirements for registration with these Institutions as a Chartered Engineer.



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The Systems Engineering Management MSc has been specifically designed for the needs of engineering professionals working in the field of complex systems development. Read more

The Systems Engineering Management MSc has been specifically designed for the needs of engineering professionals working in the field of complex systems development. The programme encompasses not only the technical tools and approaches needed to build success in this area, but also the management dimension of the relevant processes.

About this degree

Students gain an integrated, interdisciplinary view of complex systems and an advanced understanding of the systems engineering process. They gain the ability to apply this process to a variety of real-world situations and the management skills necessary to facilitate the development of complex systems on time and within budget.

Students undertake modules to the value of 180 credits.

The programme consists of four core taught modules (60 credits) two optional taught modules (30 credits) and three research modules (90 credits). Modules are generally taught as intensive five-day 'block weeks' to minimise time away from the office.

A Postgraduate Diploma (120 credits, full-time one academic year, or flexible study up to five years) is offered.

A Postgraduate Certificate (60 credits, full-time 12 weeks, or flexible study up to three years) is offered.

Core modules

  • Systems Thinking and Engineering Management
  • The Business Environment
  • Risk, Reliability, Resilience
  • Lifecycle Management

Optional modules

Students choose two of the following:

  • Systems Design
  • Technology Strategy
  • Project Management (leading to Association for Project Management exam)
  • Delivering Complex Projects
  • Defence and Security Systems
  • Rail Systems
  • Space Systems

Research modules

All MSc students undertake a structured research programme comprising the following mandatory modules:

  • Systems Engineering in Practice (15 credits)
  • Systems Engineering Project Concept (15 credits)
  • Systems Engineering Research Project (60 credits)

Teaching and learning

The programme is delivered through a combination of lectures, discussion sessions, workshop activity, and project work. Each taught course will be separately assessed through a combination of course work and a written examination. The project will be assessed through written dissertation and subsequent oral examination.

Further information on modules and degree structure is available on the department website: Systems Engineering Management MSc

Careers

Complex systems are commonplace in many branches of UK industry including rail, aerospace, defence, and manufacturing. The ability to create such systems effectively is crucial to the competitiveness of these industries and has a direct bearing on the wealth of the nation.

Recent career destinations for this degree

  • Engineering Manager, BAE Systems
  • Systems Engineer, BIG
  • Analyst, Accenture
  • Proposals engineer, Invensys PLC

Why study this degree at UCL?

This MSc combines academic rigour with the practical expertise exemplified by our collaborators in UK industry and government. The flexible programme enables participants to structure their studies to suit their own career goals, and is accredited by the Institution of Engineering and Technology (IET) as a programme of further learning for registration as a Chartered Engineer.

The programme combines interactive lectures, group exercises and case studies to reinforce key points. Lecturers are experts in the field, many of whom have engaged in the practice of systems engineering in industry, and all of whom oversee research across a broad range of subjects relating to systems engineering, project management and technology management.

Industry is operating in an environment where technology changes rapidly, and where global competition grows ever more intensive. The challenge to remain competitive means we must make the right thing at the right price. Our MSc equips graduates with the skills to meet this challenge.



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Visit our website for more information on fees, scholarships, postgraduate loans and other funding options to study Aerospace Engineering at Swansea University - 'Welsh University of the Year 2017' (Times and Sunday Times Good University Guide 2017). Read more

Visit our website for more information on fees, scholarships, postgraduate loans and other funding options to study Aerospace Engineering at Swansea University - 'Welsh University of the Year 2017' (Times and Sunday Times Good University Guide 2017).

Our world-leading technology has contributed to many exciting projects, including aerodynamics for the current world land-speed record car, Thrust SSC, and the future land-speed record car BLOODHOUND SSC and design of the double-decker super-jet Airbus A380. Swansea University provides an excellent base for your research as a MSc by Research student in Aerospace Engineering.

Key Features of MSc by Research in Aerospace Engineering

Aerospace Engineering at Swansea University is at the forefront of the latest technology. We are seen as a leader in many aspects of aerospace engineering, both internationally and in the UK. We pride ourselves in the extensive collaborations with international companies such as:

BAE Systems

Rolls-Royce

EADS

Airbus

Research within Engineering at Swansea University is multidisciplinary in nature, incorporating our strengths in research areas across the engineering disciplines.

Computational mechanics forms the basis for the majority of the MSc by Research projects within these engineering disciplines including Aerospace Engineering.

The MSc by Research in Aerospace Engineering typically lasts one year full-time, two to three years part-time. This is an individual research project written up in a thesis of 30,000 words.

Facilities

Our new home at the innovative Bay Campus provides some of the best university facilities in the UK, in an outstanding location.

Aerospace Engineering at Swansea University has a wide range of in-house facilities ranging from computer labs housing state-of-the-art PCs through to specialist equipment used almost exclusively by aerospace engineering students.

Research

The Research Excellence Framework (REF) 2014 ranks Engineering at Swansea as 10th in the UK for the combined score in research quality across the Engineering disciplines.

World-leading research

The REF shows that 94% of research produced by our academic staff is of World-Leading (4*) or Internationally Excellent (3*) quality. This has increased from 73% in the 2008 RAE.

Research pioneered at the College of Engineering harnesses the expertise of academic staff within the department. This ground-breaking multidisciplinary research informs our world-class teaching with several of our staff leaders in their fields.

Highlights of the Engineering results according to the General Engineering Unit of Assessment:

Research Environment at Swansea ranked 2nd in the UK

Research Impact ranked 10th in the UK

Research Power (3*/4* Equivalent staff) ranked 10th in the UK

Links with industry

Aerospace Engineering at Swansea University has a distinguished history of working with aerospace companies around the world, including:

BAE Systems

Rolls Royce

EADS

Airbus

We have also contributed to many exciting projects, from the super-jet Airbus A380 to the 1,000mph land-speed record breaking BLOODHOUND SSC.



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This specialist course has been developed to equip graduate engineers with the skills required of a highly demanding aerospace industry. Read more

About the course

This specialist course has been developed to equip graduate engineers with the skills required of a highly demanding aerospace industry.

Taught modules are balanced with practical and challenging individual and group aerospace project work. You will learn about aircraft design aerodynamics, space mechanics, spacecraft design, propulsion systems and the role of flight simulation in aerospace at an
advanced level.

Practical projects typically include the design, build and testing of a scale aircraft, computational fluid dynamics and structural analysis modelling of a critical aerospace component and flight performance evaluation using a flight simulator.

MSc Aerospace Engineering is accredited by the Royal Aeronautical Society (RAeS) and the Institution of Mechanical Engineers (IMechE). This will provide a route to Chartered Engineer status in the UK.

Aims

Although the course has a distinct specialist and technical flavour, the MSc also seeks to provide graduates with a raft of non-technical skills to enable them to realise their professional potential to its fullest.

To this end, the course provides modules that cover topics in strategic management, enterprise, research and innovation, as well as exploring issues that are of special importance to the future of the aerospace industry, such as safety, security, and sustainability.

Course Content

The MSc Aerospace Engineering course consists of five taught modules, a group project, and an individual project and dissertation.

Compulsory Modules

Design and Analysis of Aerospace Vehicles
Advanced Aerodynamics, Propulsion Systems, and Space Mechanics
Current Topics in Aerospace
Strategic Management Innovation and Enterprise
Research Methodology and Sustainable Engineering
Group Project in Aerospace Engineering
Aircraft Structures, Loads and Aeroelasticity
Dissertation

Special Features

Highly rated by students

Mechanical Engineering at Brunel ranks highly in the Guardian league tables for UK universities, with a student satisfaction score of 86.4% in 2015. Postgraduate students can therefore expect to benefit from an experienced and supportive teaching base whilst having the opportunity to thrive in a dynamic and high-profile research environment.

Outstanding facilities

We have extensive and well-equipped laboratories, particular areas of strength being in fluid and biofluid mechanics, IC engines, vibrations, building service engineering, and structural testing. Our computing facilities are diverse and are readily available to all students. The University is fully networked with both Sun workstations and PCs. Advanced software is available for finite and boundary element modelling of structures, finite volume modelling of flows, and for the simulation of varied control systems, flow machines, combustion engines, suspensions, built environment, and other systems of interest to the research groups.

Strong links with industry

We regularly consult aerospace engineering experts to keep our programmes up to date with industry needs. Read more about how we integrated industrial expertise into an MEng Aerospace Engineering module.

Women in Engineering and Computing Programme

Brunel’s Women in Engineering and Computing mentoring scheme provides our female students with invaluable help and support from their industry mentors.

Accreditation

Aerospace Engineering is accredited by the Royal Aeronautical Society (RAeS) and the Institution of Mechanical Engineers (IMechE). This will provide a route to Chartered Engineer status in the UK.

Assessment

Modules are taught over eight months (from October to May) and are assessed by a balanced combination of examination and assignment.

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The Masters in Aerospace Engineering & Management introduces you to contemporary business and management issues while increasing your depth of knowledge in your chosen aerospace engineering speciality. Read more

The Masters in Aerospace Engineering & Management introduces you to contemporary business and management issues while increasing your depth of knowledge in your chosen aerospace engineering speciality.

Why this programme

  • The University of Glasgow has been the home of Aerospace Research for over 60 years. This long-standing activity has culminated in the Division of Aerospace Sciences having internationally recognised expertise in all areas of Aeronautics and Aerospace Systems.
  • You will be taught jointly by staff from the School of Engineering and the Adam Smith Business School. You will benefit from their combined resources and expertise and from an industry-focused curriculum.
  • The University of Glasgow is one of the few institutions in the UK, and the only University in Scotland, to offer an Aerospace System MSc.
  • Aeronautical engineering at the University of Glasgow is consistently highly ranked recently achieving 10th in the UK and 1st in Scotland (Complete University Guide 2017).
  • If you have an engineering background, but with little management experience and you are looking to broaden your knowledge of management while also furthering your knowledge of aerospace engineering, this programme is designed for you.
  • Students in this programme can benefit from access to our outstanding facilities: including several wind tunnels, a flight simulation lab, an autonomous unmanned vehicle (UAV) laboratory, helicopter test rig laboratories, structural testing apparatus and computer labs for modelling and simulation.
  • This programme has a September and January intake

Programme structure

There are two semesters of taught material and a summer session working on a project or dissertation. September entry students start with management courses and January entry students with engineering courses.

Semester 1

You will be based in the Adam Smith Business School, developing knowledge and skills in management principles and techniques. We offer an applied approach, with an emphasis on an informed critical evaluation of information, and the subsequent application of concepts and tools to the core areas of business and management.

Core courses

  • Contemporary issues in human resource management 
  • Managing creativity and innovation 
  • Managing innovative change 
  • Marketing management 
  • Operations management 
  • Project management.

Semester 2

You will study engineering courses, which aim to enhance your group working and project management capability at the same time as improving your depth of knowledge in chosen aerospace engineering subjects.

Core courses

  • Integrated systems design project.

Optional courses (four chosen)

  • Autonomous vehicle guidance systems
  • Composite airframe structures
  • Fault detection, isolation and reconfiguration
  • Introduction to aeroelasticity
  • Introduction to computational fluid dynamics
  • Introduction to wind engineering
  • Radar and electro-optic systems
  • Robust control 5
  • Spacecraft systems 2.

Project or dissertation

You will undertake an individual project or dissertation work in the summer period (May–August). This will give you an opportunity to apply and consolidate the course material and enhance your ability to do independent work, as well as present results in the most appropriate format. Project and dissertation options are closely linked to staff research interests. September entry students have a choice of management dissertation topics in addition to aerospace engineering projects, and January entry students have a choice of aerospace engineering projects. 

Career prospects

Career opportunities include positions in aerospace, defence, renewable energy, nuclear energy and management. You can also continue studying, for a research Masters or a PhD.



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This Masters in Computer Systems Engineering exposes students to state-of-the-art miniaturised and mobile computer systems and smart device technology, allowing them to acquire the complementary hardware and software knowledge and skills required for understanding and designing such systems. Read more
This Masters in Computer Systems Engineering exposes students to state-of-the-art miniaturised and mobile computer systems and smart device technology, allowing them to acquire the complementary hardware and software knowledge and skills required for understanding and designing such systems.

Why this programme

◾You will be taught jointly by the Schools of Engineering and Computing Science. You will benefit from their combined resources and expertise and from an industry-focused curriculum.
◾Electronic and Electrical Engineering at the University of Glasgow is consistently highly ranked recently achieving 1st in Scotland and 4th in the UK (Complete University Guide 2017).
◾If you are a computer engineering graduate, this programme will enhance your knowledge; if you are an electronic engineering graduate you can focus on developing your software skills; or if you are computer science graduate you can focus on developing your hardware skills.
◾With a 92% overall student satisfaction in the National Student Survey 2015, Electronic and Electrical Engineering at the School of Engineering combines both teaching excellence and a supportive learning environment.

Programme structure

Modes of delivery of the MSc in Computer Systems Engineering include lectures, seminars and tutorials and allow students the opportunity to take part in lab, project and team work.

Core courses
◾Digital signal processing
◾Either networked systems or computer communications
◾Human–computer interaction
◾Software and requirements engineering
◾MSc project.

Optional courses typically include
◾Advanced operating systems
◾Artificial intelligence
◾Computer architecture
◾Digital communications 4
◾Human-centred security
◾Information retrieval
◾Internet technology
◾Microwave and millimetre wave circuit design
◾Optical communications
◾Real time embedded programming
◾Safety critical systems.

Projects

◾In addition to taught work and practical assignments you will also complete a joint research project worth 60 credits in one of the state-of-the-art laboratories in the schools.
◾This extended project is an integral part of the MSc programme: many of these are linked to industry while others are related to research in either of the participating Schools.
◾The project is an important part of your MSc where you can apply your newly learned skills and show to future employers that you have been working on cutting edge projects relevant to the industry.
◾You can choose a topic from a list of MSc projects in Computer Systems Engineering. Alternatively, should you have your own idea for a project, department members are always open to discussion of topics.

Example projects

Examples of projects can be found online

*Posters shown are for illustrative purposes

Industry links and employability

◾As computer systems have reduced in size, and are increasingly mobile with more complex functionalities, they are now a fundamental component of smart device technology.
◾This postgraduate programme is particularly suited to acquiring the complementary hardware and software knowledge and skills required for understanding and designing such systems.
◾The programme makes use of the combined resources and complementary expertise of the engineering and computing science staff to deliver a curriculum which is relevant to the needs of industry.
◾The School of Computing Science has extensive contacts with industrial partners who contribute to several of their taught courses, through active teaching, curriculum development, and panel discussion. Recent contributions in Computer Systems Engineering include: IBM, J.P. Morgan, Amazon, Adobe and Red Hat.
◾During the programme students have an opportunity to develop and practice relevant professional and transferrable skills, and to meet and learn from employers about working in the computer/software industry.
◾The Computer Systems Engineering MSc programme also provides excellent preparation for those wanting to pursue a PhD in a similar research field.

Career prospects

Career opportunities include positions in software development, chip design, embedded system design, telecommunications, video systems, automation and control, aerospace, development of PC peripherals and FPGA programming, defence and services for the heavy industries, for example generator and industrial motor control systems, etc.

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This Postgraduate Certificate has been designed for engineering professionals who are interested in developing their careers into systems engineering or project management roles in the defence and security domains. Read more

This Postgraduate Certificate has been designed for engineering professionals who are interested in developing their careers into systems engineering or project management roles in the defence and security domains

About this degree

Students will develop a powerful set of skills and knowledge about defence and security systems and gain awareness and understanding of the economic and organisational context within which defence and security systems are developed, including the limitations these can impose. Depending on the modules chosen, students may focus more on business, project management, reliability or design aspects.

Students undertake modules to the value of 60 credits.

The programme consists of four taught modules of 15 credits each.

Core modules

Students must take Defence and Security Systems (15 credits) and either three from the list below or two from the list below and one optional module.

  • Business Environment
  • Lifecycle Management
  • Risk, Reliability and Resilience
  • Systems Thinking and Engineering Management

Optional modules

  • Delivering Complex Projects
  • Project Management (leading to Association for Project Management examination)
  • Systems Design
  • Technology Strategy

Teaching and learning

The programme consists of four taught modules, each of which is delivered as a five-day block week consisting of a blend of interactive lectures, small-group exercises and presentations, case studies and workshop activity. Formative feedback is given to students throughout the modules. Modules are formally assessed through coursework to be completed a few weeks after the module, and for some modules there is also a short test or a 1.5 hour written examination.

Further information on modules and degree structure is available on the department website: Defence Systems Engineering PG Cert

Careers

Students who have studied this subject have found employment in defence, aerospace, rail, construction, cybersecurity, engineering, IT, management consultancy and many other areas.

Employability

Systems engineering is a highly sought-after expertise, particularly in engineering and technology-based organisations.

The programme's industrial advisory board ensures that the subjects students learn about cover the key issues faced by industry.

Why study this degree at UCL?

The programme combines interactive lectures, group exercises and case studies to reinforce key points. Lecturers are experts in the field, many of whom have engaged in the practice of systems engineering in industry, and all of whom oversee research across a broad range of subjects relating to systems engineering, project management and technology management.

Students with this degree will gain the skills, knowledge and confidence to further their careers. They will be able to build their professional contacts with like-minded individuals from different organisations.

On successful completion of the 60-credit programme, students may choose to apply to transfer their credit towards a 120-credit Postgraduate Diploma or a 180-credit MSc in Systems Engineering Management.

Accreditation

The MSc in Systems Engineering Management (which students may choose to go on to study on successful completion of this Postgraduate Certificate) is accredited by the Institution of Engineering and Technology (IET) on behalf of the Engineering Council for the purposes of fully meeting the academic requirement for registration as a Chartered Engineer.

Research Excellence Framework (REF)

The Research Excellence Framework, or REF, is the system for assessing the quality of research in UK higher education institutions. The 2014 REF was carried out by the UK's higher education funding bodies, and the results used to allocate research funding from 2015/16.

The following REF score was awarded to the department: Space & Climate Physics

90% rated 4* (‘world-leading’) or 3* (‘internationally excellent’)

Learn more about the scope of UCL's research, and browse case studies, on our Research Impact website.



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The graduate in Automation and Control Engineering is an expert who can actively participate and take the lead in the executive design and development of products and systems. Read more

Mission and goals

The graduate in Automation and Control Engineering is an expert who can actively participate and take the lead in the executive design and development of products and systems. She/he may take on full responsibility for designing, installing, testing and maintaining complex machines and systems. The goal of the Automation and Control Engineering programme is to provide the graduate with a strong background in fundamental scientific disciplines, such as mathematics and physics, in classical engineering fields, such as thermodynamics, mechanics, electric drives, automatic control, and in the disciplines of the information and telecommunication technology, like computer science, electronics, communication networks. Thanks to the interdisciplinary nature of her/his background, the graduate has all the necessary skills to design or manage systems resulting from the integration of highly diverse components and technologies. This flexibility both in the attitude and in the competences is a significant asset of the Automation and Control Engineer, in view of the large variety of possible applications, of the continuous and rapid evolution of the technologies, as well as of the dynamics of the job market.

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

Career opportunities

Automation and Control Engineering offers challenging and fulfilling careers for engineering technologists in design, research and development, and technical support, in many fields where automation and control are of paramount importance, such as: (a) industry producing manufacturing systems, automatic machines, robotic systems, mechatronic systems; (b) process industry (pulp and paper, energy production and conversion, chemical and petrochemical industry, etc.); (c) transportation systems (ground, marine and aerospace), concerning both the development of vehicles (cars, boats, helicopters, aircrafts, satellites), and the design, management and control of infrastructures; (d) transportation and distribution networks; (e) food industry; (f) electrical appliances and domotics; (g) environmental resources.

Typical companies where the automation and control engineers may operate include those producing and selling automation systems (both hardware and software); companies that use automated production plants or that manage highly complex services; engineering and consulting firms that design and project complex, economically challenging and technologically advanced plants and systems.

Presentation

See http://www.polinternational.polimi.it/uploads/media/Automation_Engineering.pdf
This programme aims at providing the graduates with sound engineering skills to design, develop, implement and manage automation systems for manufacturing plants, industrial processes, mechatronic devices, distribution networks and environmental systems. Graduates have a strong background in the classical engineering fields and in the information and telecommunication technology. The interdisciplinary nature of this programme provides the graduates with all the skills to design/manage systems resulting from the integration of highly diverse technologies.
Graduates will have wide employment opportunities in many fields: industry producing manufacturing systems, automatic machines, robotic systems, mechatronic systems, process industry, transportation systems, transportation and distribution networks, food industry, electrical appliances, home automation and environmental resources.
The programme is taught in English.

Subjects

The mandatory courses are:
- Advanced and multivariable control
- Automation and control laboratory
- Computer aided manufacturing
- Dynamics of electrical machines and drives
- Dynamics of mechanical systems
- Model identification and data analysis
- Software engineering

Among the optional courses:
- Automation and control in vehicles
- Automation of energy systems
- Control of industrial robots
- Production systems control
- Safety in automation systems
- Thesis and final exam

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

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

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

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This Postgraduate Certificate is designed for engineering professionals who are interested in developing their careers into systems engineering or project management roles in the space domain. Read more

This Postgraduate Certificate is designed for engineering professionals who are interested in developing their careers into systems engineering or project management roles in the space domain.

About this degree

Students will develop a powerful set of skills and knowledge about space systems and gain awareness and understanding of the economic and organisational context within which space sytems are developed including the limitations these can impose. Depending on the modules chosen, students may focus more on business, project management, reliability or design aspects.

Students undertake modules to the value of 60 credits.

The programme consists of four taught modules of 15 credits each.

Core modules

Students must take Space Systems (15 credits) and either three from the list below or two from the list below and one optional module.

  • Business Environment
  • Lifecycle Management
  • Risk, Reliability and Resilience
  • Systems Thinking and Engineering Management

Optional modules

  • Systems Design
  • Technology Strategy
  • Project Management (leading to Association for Project Management exam)
  • Delivering Complex Projects

Teaching and learning

The programme consists of four taught modules, each of which is delivered as a five-day block week consisting of a blend of interactive lectures, small-group exercises and presentations, case studies and workshop activity. Formative feedback is given to students throughout the modules. Modules are formally assessed through coursework to be completed a few weeks after the module, and for some modules there is also a short test or a 1.5 hour written examination.

Further information on modules and degree structure is available on the department website: Space Systems Engineering PG Cert

Funding

For a comprehensive list of the funding opportunities available at UCL, including funding relevant to your nationality, please visit the Scholarships and Funding website.

Careers

Students who have studied this subject have found employment in aerospace, defence, communications, rail, construction, engineering, IT, management consultancy and many other areas.

Employability

Systems engineering is a highly sought-after expertise, particularly in engineering and technology-based organisations.

The programme's industrial advisory board ensures that the subjects students learn about cover the key issues faced by industry.

Why study this degree at UCL?

The programme combines interactive lectures, group exercises and case studies to reinforce key points. Lecturers are experts in the field, many of whom have engaged in the practice of systems engineering in industry, and all of whom oversee research across a broad range of subjects relating to systems engineering, project management and technology management.

Students with this degree will gain the skills, knowledege and confidence to further their careers. They will be able to build their professional contacts with like-minded individuals from different organisations.

On completion of the 60-credit programme, students may choose to apply to transfer their credit towards a 120-credit Postgraduate Diploma or a 180-credit MSc in Systems Engineering Management.

Accreditation:

The MSc in Systems Engineering Management (which students may choose to go on to study on successful completion of this Postgraduate Certificate) is accredited by the Institution of Engineering and Technology (IET) on behalf of the Engineering Council for the purposes of fully meeting the academic requirement for registration as a Chartered Engineer.



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Your programme of study. You can study this programme either full time on campus, part time, or online to fit flexibly around work commitments. Read more

Your programme of study

You can study this programme either full time on campus, part time, or online to fit flexibly around work commitments.

Whilst Safety and Reliability Engineering allows you to apply your skills and knowledge to a wider range of industries, this programme is specifically for the oil and gas industry. It provides you with the knowledge to review reliability of engineering facilities, materials and products and legislative framework at the same time. Safety has always been of paramount concern in the oil and gas industry with a lot of learning and knowledge acquired since the oil industry growth of the 1970s. This knowledge has been scrutinised by University of Aberdeen and the industry to provide professional expertise to manage safety and reliability. Future challenges are being met to some extent by the advent of affordable sensors which manage difficult to reach places, but nonetheless require the knowledge and capabilities of professionals working in this discipline to ensure they are fit for purpose.

The MSc Safety Engineering for Oil & Gas programme provides training in safety engineering, reliability engineering, and loss prevention in the offshore, nuclear, transport, aerospace and process industries and more. Fully accredited by the Institution of Mechanical Engineers (IMechE), the Institution of Civil Engineers (ICE), the Institution of Structural Engineers (IStructE), the Institute of Highway Engineers (IHE) and the Chartered Institution of Highways & Transportation (CIHT).

Courses listed for the programme

Semester 1

  • Fundamental Safety Engineering and Risk Management Concepts
  • Statistics and Probability for Safety, Reliability, and Quality
  • Fire and Explosion Engineering
  • Offshore Oil and Gas Production Systems

Semester 2

  • Advanced Methods for Risk and Reliability Assessment
  • Applied Risk Analysis and Management
  • Process Design, Layout and Materials
  • Human Factors Engineering

Semester 3

  • Project

Find out more detail by visiting the programme web page

There is also on online delivery

Why study at Aberdeen?

  • The university is highly regarded within the oil and gas industry for continuous integration with industry needs and knowledge
  • You can study flexibly either part time or online
  • It is supported by the Lloyds Register and Advisory Board which in turn builds on the knowledge within the School of Engineering
  • We are ideally placed to provide this programme of study and support it with strong links to industry

Where you study

  • University of Aberdeen
  • Full time and part time
  • 12 Months or 24 Months
  • September start

There is also an Online delivery of this programme

International Student Fees 2017/2018

Find out about international fees:

Find out more about fees on the programme page

*Please be advised that some programmes also have additional costs.

Fees for Online delivery

*Please be advised that some programmes have different tuition fees from those listed above and that some programmes also have additional costs.

Scholarships

View all funding options on our funding database via the programme page and the latest postgraduate opportunities

Living in Aberdeen

Find out more about:

  • Your Accommodation
  • Campus Facilities
  • Aberdeen City
  • Student Support
  • Clubs and Societies

Find out more about living in Aberdeen and living costs 

Other engineering disciplines you may be interested in:



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The Aerospace Engineering MSc aims to further develop students' knowledge of and expertise in specialist engineering subjects associated with the main application areas of aeronautical engineering. Read more
The Aerospace Engineering MSc aims to further develop students' knowledge of and expertise in specialist engineering subjects associated with the main application areas of aeronautical engineering. Particular prominence is given to Sustainable Aviation, Advanced Materials and Processes, Experimental Methods and Techniques, Computational Fluid Dynamics, Structural Analysis and Simulation, Flight Dynamics and Simulation, and Advanced Aircraft Systems, in particular Unmanned Aerial Vehicles.

An emphasis on applied technical work will strengthen the engineering development skills of students from an academic background. The programme is delivered by a specialist team of academics. Access to state of the art laboratory and computing facilities within the new Engineering and Computing building. Personal tutor support throughout the postgraduate study. Excellent links with a number of industrial organisations enable access to the latest technology and real-world applications.

WHY CHOOSE THIS COURSE?

The work carried out on this course will provide the demonstrable expertise necessary to help secure professional level employment in related industries.

The Aerospace Engineering MSc curriculum consists of eight mandatory core topics and a substantial MSc project. Successful completion of all elements leads to the award of MSc in Aerospace Engineering. Completion of the taught modules without a project leads to the award of a Post Graduate Diploma.

WHAT WILL I LEARN?

The mandatory study topics are as follows:
-Mathematical modelling in Aerospace Engineering
-Unmanned Aerial Vehicle Systems (UAV)
-Experimental Methods and Techniques
-Computational Fluid Dynamics (CFD)
-Advanced Materials and Processes
-Design and analysis of Aerospace structures
-Flight Dynamics and Simulation
-Project Management
-Individual Project

The substantial individual project gives students the opportunity to work on a detailed area of related technology alongside an experienced academic supervisor. Some projects are offered in conjunction with the work of the Faculty’s research centres or industry. Typical project titles include:
-Integration of Advanced Materials into Aircraft Structures
-Sustainable Aircraft Development and Design
-Intelligent Power Generation
-UAV SWARM Systems

You will have access to:
-Unique Flight Simulator Suite (3 flight simulators, 2 UAV ground control systems plus the associated UAV,1 Air Traffic Control unit);
Harrier Jump Jet;
-New bespoke Mercedes-Petronas low speed wind tunnel and associated measurement;
-Faculty workshop (metal/woodwork), Composites Laboratory, Metrology Laboratory, Electrical Laboratory, Communications and Signal Processing Laboratory, Cogent Wireless Intelligent Sensing Laboratory
-Faculty Open Access Computer Facilities

HOW WILL THIS COURSE ENHANCE MY CAREER PROSPECTS?

The specialist topics studied on the programme will prepare you for work in specialist companies involved with aeronautical engineering. There are also many roles in related industries that rely on the technology. Possible destinations include:
-Design, Development, Operations and Management;
-Projects/Systems/Structural/Avionics Engineers.

Typical student destinations include:
-BAE Systems
-Rolls-Royce
-Airbus
-Dassult

Opportunities also exist to complete a PhD research degree upon completion of the master’s course:
-Research at Coventry University
-Cogent Computing
-Control Theory and Applications Centre
-Distributed Systems and Modelling

Aerospace Engineering MSc has been developed to improve upon the fundamental undergraduate knowledge of aerospace/aeronautical students and help mechanical students learn more about the application of their subject to aircraft. The whole aerospace/aviation industry is committed to a more sustainable and a more efficient future. The techniques, methods and subjects covered in this degree explore the ever changing industrial environment in more detail.

GLOBAL LEADERS PROGRAMME

To prepare students for the challenges of the global employment market and to strengthen and develop their broader personal and professional skills Coventry University has developed a unique Global Leaders Programme.

The objectives of the programme, in which postgraduate and eligible undergraduate students can participate, is to provide practical career workshops and enable participants to experience different business cultures.

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With increasing traffic density of civil aircraft, and the need for increased military precision in conflicts around the world, safer aircraft operations require more sophisticated avionic systems. Read more
With increasing traffic density of civil aircraft, and the need for increased military precision in conflicts around the world, safer aircraft operations require more sophisticated avionic systems.

This specialist option of the MSc Aerospace Vehicle Design (http://www.cranfield.ac.uk/courses/taught/aerospace-vehicle-design) provides you with an understanding of avionic systems design, analysis, development, test and airframe integration.

Who is it for?

This course is suitable for students with a background in aeronautical or mechanical engineering or those with relevant industrial experience. It provides a taught engineering programme with a focus on the technical, business and management aspects of aircraft design in the civil and military aerospace sectors.

Why this course?

The Avionic Systems Design option aims to provide an understanding of avionic systems design, analysis, development, test and airframe integration. This includes a detailed look at robust and fault-tolerant flight control, advanced 4D flight management and RNP navigation, self-separation and collision avoidance and advanced digital data communications systems, as well as pilot-friendly and intelligent cockpit displays and situation awareness.

We have been at the forefront of postgraduate education in aerospace engineering since 1946. Aerospace Vehicle Design at Cranfield University was one of the original foundation courses of the College of Aeronautics. Graduates of this course are eligible to join the Cranfield College of Aeronautics Alumni Association (CCAAA), an active community which hold a number of networking and social events throughout the year.

Cranfield University is well located for students from all over the world, and offers a range of library and support facilities to support your studies. This enables students from all over the world to complete this qualification whilst balancing work/life commitments.

Informed by Industry

The course has an Industrial Advisory Committee with senior members from major UK aerospace companies, government bodies, and the military services. The committee meets twice a year to review and advise on course content, acquisition skills and other attributes are desirable from graduates of the course. Panel members include:

- BAE Systems
- Airbus
- Royal Air Force
- Department for Business, Enterprise and Regulatory Reform
- Royal Australian Air Force
- Messier-Dowty
- Department of National Defence and the Canadian Armed Forces.

We also arrange visits to sites such as BAE Systems, Thales, GKN and RAF bases which specialise in the maintenance of military aircraft. This allows you to get up close to the aircraft and components to help with ideas for the group project

Accreditation

Royal Aeronautical Society (RAeS) - http://aerosociety.com/
Institution of Mechanical Engineers (IMechE) - http://www.imeche.org/

Course details

This option is comprised of 14 compulsory modules and a minimum of 60 hours of optional modules, selected from a list of 10 options. You are also required to complete a group design project and an individual research project. Delivered via a combination of structured lectures, industry guest lectures, computer based workshops and private study.

A unique feature of the course is that we have four external examiners; two from industry who assess the group design project and two from academia who assess the individual research project.

Group project

The extensive group design project is a distinctive and unique feature of this course. This teamwork project takes place over six months, usually between October and March; and recreates a virtual industrial environment bringing together students with various experience levels and different nationalities into one integrated design team.

You will be given responsibility for the detailed design of a significant part of the aircraft, for example, forward fuselage, fuel system, or navigation system. The project will progress from the conceptual phase through to the preliminary and detail design phases. You are required to run project meetings, produce engineering drawings and detailed analyses of their design. Problem solving and project coordination must be undertaken on a team and individual basis. At the end of the project, groups are required to report and present findings to a panel of 200 senior engineers from industry.

This element of the course is both real and engaging, and places the student group in a professional role as aerospace design engineers. Students testify that working as an integrated team on real problems is invaluable and prepares them well for careers in a highly competitive industry.

Watch past presentation YouTube videos to give you a taster of our innovative and exciting group projects:

- Blended Wing Body Aircraft - https://www.youtube.com/watch?v=UfD0CIAscOI
- A9 Dragonfly Box Wing Aircraft - https://www.youtube.com/watch?v=C4LQzXBJInw
- MRT7 Tanker Aircraft - https://www.youtube.com/watch?v=bNfQM2ELXvg
- A-13 Voyager - https://www.youtube.com/watch?v=LS6Wq7lpmDw
- SL-12 Vimana - https://www.youtube.com/watch?v=HjEEazsVtSc

Individual project

The individual research project aims to provide the training necessary for you to apply knowledge from the taught element to research, and takes place over six months. The project may be theoretical and/or experimental and drawn from a range of topics related to the course and suggested by teaching staff, your employer or focused on your own area of interest.

Assessment

Taught modules 10%, Group project 50%, Individual research project 40%

Your career

The Avionic Systems Design option is valued and respected by employers worldwide. The applied nature of this course ensures that our graduates are ready to be of immediate use to their future employer and has provided sufficient breadth of understanding of multi-discipline design to position them for accelerated career progression.

This course prepares graduates for careers as project design engineers, systems design, structural design or avionic engineers in aerospace or related industries, with the aim of progressing to technical management/chief engineer. Graduates from the MSc in Avionic Systems Design can therefore look forward to a varied choice of challenging career opportunities in the above disciplines.

Many of our graduates occupy very senior positions in their organisations, making valuable contributions to the international aerospace industry. Typical student destinations include BAE Systems, Airbus, Dassault and Rolls-Royce plc

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