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Masters Degrees (Vehicle Design)

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This MSc aims to build up your knowledge of the design of flying vehicles such as aircraft, missiles, airships and spacecraft. Select from one of three specialist options and excel in a growing aerospace industry. Read more

This MSc aims to build up your knowledge of the design of flying vehicles such as aircraft, missiles, airships and spacecraft. Select from one of three specialist options and excel in a growing aerospace industry:

Who is it for?

This MSc course provides a taught engineering programme with a focus on the technical, business and management aspects that encompass aircraft design in the civil and military aerospace sectors.

Teaching integrates a range of disciplines required for modern aircraft design, for example:

  • Aircraft systems design
  • Avionic systems design
  • Design for manufacture
  • Initial aircraft design 
  • Operation and cost
  • Propulsion integration
  • Stability and performance 
  • Structural design and Airframe

Why this course?

Cranfield have been at the forefront of postgraduate education in aerospace engineering since 1946 with the Aerospace Vehicle Design being one of the original foundation courses of the College of Aeronautics. Graduates from this course also become members of the Cranfield College of Aeronautics Alumni Association (CCAAA), an active community which holds a number of networking and social events throughout the year.

One unique feature of the course is that we have a range of external examiners, from industry and from academia who continually assess the quality of the course.

Cranfield University is very well located for students from all over the world, and offers a range of library, IT and support facilities to support your studies. This enables students from all over the world to complete this qualification whilst achieving the right balance of 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 which are deemed desirable from graduates of the course. Panel members have included professionals from organisations such as:

  • Airbus
  • BAE Systems
  • BOEING
  • Department of National Defence and the Canadian Armed Forces.
  • GKN Aerospace 
  • Messier-Dowty
  • Royal Air Force
  • Royal Australian Air Force
  • Thales UK

Accreditation

The MSc in Aerospace Vehicle Design, in part meets the exemplifying academic benchmark requirements for registration as a Chartered Engineer. Accredited MSc graduates who also have a BEng (Hons) accredited for CEng will be able to show that they have satisfied the required educational base for CEng registration.

Course details

The taught component of the Aerospace Vehicle Design masters is generally delivered from October to March (or March-August for the March intake). Modules for each option vary - please refer to MSc course option pages for descriptions of compulsory modules which must be undertaken. Students also have an extensive choice of optional modules to match their specific interests.

Group project

The extensive group design project is a distinctive and unique feature of this course. This teamwork project takes place from October to March (or March-August for the March intake), and recreates a virtual industrial environment bringing together students with various experience levels and different nationalities into one integrated design team.

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

This element of the course is both realistic and engaging, and places the whole 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.

Students following the Structural Design option do not participate in the Group Design Project but instead undertake a more intensive individual project.

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

Individual project

The individual research project element aims to provide the training necessary for you to apply knowledge from the taught elements to research, and takes place from March to September (or October-February for the March intake). The project may be theoretical and/or experimental and can be selected from a range of topics related to the course as suggested by teaching staff, your employer or even focused on your own area of interest. 

Assessment

Refer to MSc course option pages for breakdown of assessment

Your career

The MSc in Aerospace Vehicle Design 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 engineers, systems design, structural design or avionic engineers in aerospace or related industries, with the aim of progressing to technical management/chief engineer roles. Graduates from the MSc in Aerospace Vehicle 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. Some example student destinations include BAE Systems, Airbus, Dassault and Rolls-Royce.



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This specialist option of the . MSc Aerospace Vehicle Design.  provides you with an understanding of aircraft structures, airworthiness requirements, design standards, stress analysis, fatigue and fracture (damage tolerance) and fundamentals of aerodynamics and loading. Read more

This specialist option of the MSc Aerospace Vehicle Design provides you with an understanding of aircraft structures, airworthiness requirements, design standards, stress analysis, fatigue and fracture (damage tolerance) and fundamentals of aerodynamics and loading. Also covered is the selection of suitable materials, both metallic and composite.

Who is it for?

Manufacturers of modern aircraft are demanding more lightweight and more durable structures. Structural integrity is a major consideration of today’s aircraft fleet. For an aircraft to economically achieve its design specification and satisfy airworthiness regulations, a number of structural challenges must be overcome. This course trains engineers to meet these challenges, and prepares them for careers in civil and military aviation. It is suitable if you have a background in aeronautical or mechanical engineering, or relevant industrial experience.

Why this course?

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:

  • Airbus
  • BAE Systems
  • BOEING
  • Department of National Defence and the Canadian Armed Forces.
  • GKN Aerospace 
  • Messier-Dowty
  • Royal Air Force
  • Royal Australian Air Force
  • Thales UK

We also arrange visits to sites such as BAE Systems, Marshall Aerospace, GKN and RAF bases which specialise in the maintenance of military aircraft. This allows you to get up close to the aircraft components and help with your understanding.

Accreditation

The MSc in Aerospace Vehicle Design is accredited by the Royal Aeronautical Society (RAeS) & Institution of Mechanical Engineers (IMechE) as meeting the requirements for Further Learning for registration as a Chartered Engineer. Candidates must hold a CEng accredited BEng/BSc (Hons) undergraduate first degree to comply with full CEng registration requirements.

Course details

This option is comprised of 4 compulsory modules and a minimum of 120 hours of optional modules, selected from a list of 18 options. You will also complete 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.

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 from January to September. It is sometimes associated with a real-world problem that one of our industry partners are looking to resolve.

Examples of recent Individual Research Projects include:

  • Review, Evaluation and Development of a Microlight Aircraft
  • Investigation of the Fatigue Life of Hybrid Metal Composite Joints
  • Design for Additive Layer Manufacture
  • Rapid Prototyping for Wind Tunnel Model Manufacturing.

Assessment

Taught modules 20%, Individual research project 80%

Your career

This Aerospace Vehicle Design option in Structural Design 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.

Graduates from this option have gone onto pursue engineering careers in disciplines such as structural design, stress analysis or systems design. Many of our graduates occupy very senior positions in their organisations, making valuable contributions to the international aerospace industry. Student destinations have included BAE Systems, Airbus, Dassault and Rolls-Royce.



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With the ever 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 the ever 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 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.

The course extent also covers future ATM systems which 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:

  • Airbus
  • BAE Systems
  • BOEING
  • Department of National Defence and the Canadian Armed Forces.
  • GKN Aerospace 
  • Messier-Dowty
  • Royal Air Force
  • Royal Australian Air Force
  • Thales UK

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

The MSc in Aerospace Vehicle Design is accredited by the Royal Aeronautical Society (RAeS). Candidates must hold a CEng accredited BEng/BSc (Hons) undergraduate first degree to comply with full CEng registration requirements.

Course details

This option is comprised of a number of mandatory modules and a minimum of 60 hours of optional modules, selected from a list of 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, flight control system, or navigation system. The project will progress the design of the aircraft and avionic systems from the conceptual phase through to the preliminary and detail design phases. You are required to run project meetings, produce system schematics and conduct 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 up to 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:

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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To design modern efficient aircraft requires a complex combination of aerodynamic performance, lightweight durable structures and advanced systems engineering. This specialist . Read more

To design modern efficient aircraft requires a complex combination of aerodynamic performance, lightweight durable structures and advanced systems engineering. This specialist MSc Aerospace Vehicle Design option explores how different structural and systems elements can be designed and integrated using up-to-date methods and techniques.

Who is it for?

This option is suitable for those students wishing to gain an overview of the whole aircraft design process as well as the design of aircraft structures and systems. 

Why this course?

This Aircraft Design option aims to provide a comprehensive overview of whole aircraft configuration design as well as, structures and systems. A holistic teaching approach is taken to explore how the individual elements of an aircraft can be designed and integrated using up-to-date methods and techniques. You will learn to understand how to select and integrate specific systems such as fuel systems, and their effect on the aircraft as a whole.

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 that are desirable for graduates of the course. Panel members include:

  • Airbus
  • BAE Systems
  • BOEING
  • Department of National Defence and the Canadian Armed Forces.
  • GKN Aerospace 
  • Messier-Dowty
  • Royal Air Force
  • Royal Australian Air Force
  • Thales UK

Accreditation

The MSc in Aerospace Vehicle Design is accredited by the Royal Aeronautical Society (RAeS) & Institution of Mechanical Engineers (IMechE) as meeting the requirements for Further Learning for registration as a Chartered Engineer. Candidates must hold a CEng accredited BEng/BSc (Hons) undergraduate first degree to comply with full CEng registration requirements.

Course details

The Aircraft Design option consists of a number of mandatory modules and a minimum of 60 hours of optional modules, which are selected from optional modules. You are also required to complete a group design project and an individual research project.

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 and recreates a virtual industrial environment bringing together students with various experience levels and different nationalities into one integrated design team.

Students are given responsibility for the detailed design of a significant part of the aircraft, for example, forward fuselage, fuel system, landing gear, environmental control system, wing. The project will progress from the conceptual phase through to the preliminary and detail design phases. You will be required to run project meetings, produce engineering drawings and detailed analyses of your design. Problem solving and project co-ordination 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 large panel of senior engineers from industry.

This element of the course is both realistic 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 videos (YouTube) to give you a taster of our innovative and exciting group projects:

Individual project

The individual research project aims to provide the training necessary for you to apply knowledge from the taught element to research. 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. It provides the opportunity for you to deepen your knowledge of an area that is of particular interest, and is often associated with a real-world problem that one of our industry partners is looking to resolve.

Previous Individual Research Projects include:

  • Ultra Long Range Science UAV Structure / Systems Development
  • Conceptual Design of a Hypersonic Space Launcher and Global Transportation System
  • Effect of Aerodynamics on the Conceptual Design of Blended Wing Body Aircraft
  • Review, Evaluation and Development of a Microlight Aircraft
  • Feasibility of the Application of Low Cost Scaled Aircraft Demonstrators.

Assessment

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

Your career

This MSc 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.

Graduates from this option have gone on to pursue engineering careers in disciplines such as structural design, stress analysis or systems design.

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.



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This programme is grounded on the belief that architects should be thinking well beyond the constraints of market forces and the traditional disciplinary limits of the profession, towards forms, technology and spaces for a more sustainable future. Read more
This programme is grounded on the belief that architects should be thinking well beyond the constraints of market forces and the traditional disciplinary limits of the profession, towards forms, technology and spaces for a more sustainable future. This is a student-led programme, and you can have very different experiences within it depending on the choices of studios and courses you make.

Why choose this course?

Founded in 1927, the School of Architecture at Oxford Brookes has established an international reputation for the quality of both its research and its teaching. As one of the largest architecture schools in the UK, with around 600 students and 70 staff, it plays a leading role in defining the national, and international, agenda in design education and research. The school enjoys an international reputation in research, in areas ranging from sustainable design to modular buildings and from design for well-being to vernacular architecture.

Staff in the school regularly secure research funding from the UK's research councils and the European Union as well as industry, with an annual research grant income averaging £1m in recent years. This programme provides RIBA/ARB Part 2.

Professional accreditation

Accredited by the Royal Institute of British Architects (RIBA) and the Architects Registration Board (ARB).

This course in detail

Year 1 - Research into design
This year has a very strong emphasis on acquiring in-depth knowledge of an architecturally important field of study and utilising that knowledge in design. This is achieved by taking one of the six 'design specialisations'.

You choose which design specialisation is best for you. The specialisations on offer are deliberately highly diverse to cater for the changing nature of the profession in practice. This course produces graduates for the global market and as such requires a high level of commitment from staff and students.

The design specialisations are:
-Advanced Architectural Design
-International Architectural Regeneration and Development
-Development and Emergency Practice
-Sustainable Building: Performance and Design
-Research-led Design
-Urban Design.

Each of the research specialisations offers teaching from experts within that subject area, and links, through teaching focus and staff, to the five research clusters that are an invaluable resource within the School of architecture.

The five research clusters keep the specialisations at the cutting edge in terms of a global agenda. They are, in general terms, environmental design, technology, development and emergency practice, humanities and architectural design.

Each of the design specialisations include a design project or projects, to which you will apply your detailed learning.

In addition to the design specialisation the first year will, through the Research Philosophy for Design module, widen your thinking in terms of what constitutes research, test your critical thinking and improved your analytical abilities. All of these are essential tools and their enhancement will place you in a stronger position to undertake the design studio in the second year.

Your ability to represent your ideas in a coherent and focused manner is the remit for the Representation module. This module will identify your strengths and build up your weaknesses, both in terms of visual and verbal communication methods. You will be able to dedicate time to fine-tuning techniques or building from basics in sketching, model making, 2D and 3D CAD. Your presentation of methods and actual practice will enable you to build confidence in verbal communication skills.

The Management, Practice and Law module in year one looks at the landscapes within which these issues are being informed. This module is taught by practising architects who have first-hand experience of the issues under discussion. Through a series of workshops you will work on topics that are essential to the practice of architecture. Management, practice and law is part of the design delivery of the programme and you will be expected to approach the coursework from a design position. This module asks that you approach this subject with a very different mind-set than the traditional position.

Due to the diverse and preparative basis of this year it is compulsory for all students to pass all compulsory components of the Research into Design year in order to be progress to the Design and Technology year.

Year 2 - Design and technology
This year is structured to enable you to synthesise a broad range of complex cultural, aesthetic, research and technical factors, and design-specialisation learning, into your major design project and portfolio.

The year is spent participating in one of six design studios. All studios have control over their own programme of projects, and each has a different view of architectural culture and promotes different design methods. The design studios are taught by some of the brightest designers and tutors in the country and consequently their programmes demand high levels of creative and intellectual endeavour from you, as well as high levels of productivity. Their aim is to raise your design thinking, skills and production to the highest possible standard.

All six units present their projects for the year in the induction session and you are asked to select all six in order of preference. This system is to allow for an even distribution of students across all six units. Most students are allocated to their first choice of studio although there is no guarantee of a particular design unit - normally at worst you are allocated your second choice.

During the design and technology year, your design work must develop into technically ambitious architecture and be the subject of your compulsory Advanced Technology for Design module. This module designs through technology and fully complements and parallels your work in the design studio. There is a very strong emphasis here upon the creative possibilities for architectural technology. We ask for an open and experimental approach to technology, but also a clear understanding of its context and aims.

The staff delivering the teaching in the design studio unit and the Advanced Technology for Design module are made up from academics and practitioners. This energetic mix will challenge you to think about design and technology in a new manner, building confidence in ability, enabling deep thinking, and aiding you to define a personal design spirit.

Sitting alongside the design and technology is the second Management, Practice and Law module. This module builds on the learning and skills from the first year module and prepares you for stepping back into practice. As in the first year module this is learning is delivered by practicing architects. Through focus groups with architectural practices, this module figures in the skills that are seen as highly desirable for the ARB part 2 graduate to have when seeking employment.

Throughout the two years of the programme there will be interim reviews. This offers an opportunity to receive feedback from outside of your design studio or design specialisation. We have strong links with practice and architectural institutions and can attract the most able people to sit on our reviews.

This is a programme that aims to give you the skills for international practice.

As our courses are reviewed regularly, modules may vary from those listed here.

Teaching and learning

The unique nature of the Applied Design in Architecture offers you the opportunity to select an individual pathway that will create a distinctive graduate profile that is unique to you alone.

The ability to choose modules from within design specialisations offers you the prospect of defining your own position. You will find that you are being taught with, in most cases, direct entry master's students from countries around the world.

This aspect is complemented by the Year 2 design studio where you will engage with a distinctive agenda and experience a diversity of design specialisation thinking from students within your unit.

Self-directed learning is highly supported by staff in the School of Architecture. Personal choice engenders motivation and a high level of commitment, and the programme has been designed to embrace this aspect whilst clearly building on skills, thinking, application and design production to achieve a final portfolio of the highest standard.

Careers and professional development

The modules Management Practice, and Law 1 and 2, include guidance on the necessary professional skills that are required both for ARB Part 2 and for preparation in commencing ARB Part 3. The design studio generates a portfolio of work that not only demonstrates the learning for ARB Part 2 but also written, research and visual skills. The design portfolio is intended as the vehicle for students to synthesise all facets of their learning in order to seek practice employment.

In addition the school maintains a jobs wall that advertises vacancies locally, nationally and internationally.

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The MA in Transportation Design emphasises the design of niche and alternative fuelled forms of transport that explore our evolving relationship to mobility in a shrinking world. Read more
The MA in Transportation Design emphasises the design of niche and alternative fuelled forms of transport that explore our evolving relationship to mobility in a shrinking world. Design strategies aim to encourage free thinkers who are prepared to challenge received wisdom in the pursuit of excellence in vehicle design.

Course Overview

This programme explores the inter-relationship of form and emotion in the design and development of all forms of transport. The programme provides a platform for students to further their knowledge of the nature of vehicle design and the necessity for its application in the design of sustainable forms of transport, bridging the gap between human interaction and innovative transportation solutions. The programme provides graduates with the opportunity to develop their expertise to make them a mover effective and reflective design practitioner. An interdisciplinary approach is adopted, allowing the students the freedom to challenge conventions through cross collaborative experimentation and lateral thinking, with a goal of harnessing design ambiguity into a tangible outcome.

The programme is about pushing the envelope of Transportation Design by educating the next generation of visionaries and implementers, who will embrace, reflect and address environmental, economic and social-cultural challenges through the medium of creative dialogue.

An interdisciplinary approach allows the students the freedom to challenge conventions through cross collaborative experimentation and lateral thinking, with a goal of harnessing design ambiguity into an entrepreneurial outcome. It is our intention to promote the growing reputation of the School by embedding a culture of design led research activity closely supported by local, national and international organisations.

The MA Transportation Design programme aims to educate designers for professional practice with the modules in Part 1 focusing on design thinking and the development of the student’s creative and philosophical attributes, with Part 2 allowing the student freedom to deliver an in-depth investigation to a self-defined question. Students will explore the evolving relationship between humans and mobility in an ever shrinking world, challenging the current conventional approach and proposing new directions for getting from A to B.

The programme is a platform for students to further their knowledge and application in the design of sustainable forms of transport, bridging the gap between human interaction, innovative transportation solutions and the creative approach to new vehicle aesthetics, providing graduates with the opportunity to develop their expertise to make them a more effective and reflective design practitioner, reflecting society’s future needs.

Modules

-Collaborative Dialogues (20 credits)
-Co-Existent Perspectives (20 credits)
-The Thought Experiment (20 credits)
-Explorative Research Praxis (60 credits)
-Confirmative Praxis (60 credits)

Key Features

The MA Transport Design programme within the Contemporary Dialogues portfolio offers an exciting and innovative re-thinking of Postgraduate provision that reflects the strategic thinking of Swansea College of Art. The portfolio facilitates migration between diverse thematic disciplines, exploring new ideas and conceptual approaches to allow young artists and designers to confront the issues that face society today and into the future.

The portfolio’s ethos of collaborative dialogues through material practices provides an innovative model of design and applied arts education. This development allows students from all pathways to experience and share creative practices and innovative mind-sets through inter-disciplinary and trans-disciplinary dialogues. This ethos is enhanced within each programme to stimulate ‘collaborative’ practices and experimentation across a broader spectrum of specialist fields, developing graduates with the contextual awareness, creative thinking and technical skills to operate at the forefront of their discipline.

During the course of your studies you will be supported by specialist staff, leading professionals and practicing artists through lectures, seminars, workshops and tutorials. We have exceptional traditional and digital facilities, housed in spacious purpose-build workshops. Through these, we encourage creative freedom within all of our students and support you in challenging conventional thinking and established practices and facilitate new technological advances across a broad range of disciplines. We have found that through collaborative experimentation and innovative design thinking our students are able to produce work that meets the challenges and respond to the demands of the 21st century.

Facilities include:
-Firing kilns for glass and ceramics
-Printmaking, Screen Printing and Digital Textile Technologies
-Traditional and Digital Stitch
-Wood, Metal, Clay
-Cutting Etching and Engraving Technologies - Waterjet, Laser, Plotter
-3D Printing and CNC
-Chemical and Digital Darkrooms
-Specialist computer facilities with commercial standard software

Assessment

The main modes of assessment used on this programme are; studio projects, written assignments and seminar presentations.

Assessment at postgraduate level is reflected by your ability to reformulate and use relevant methodologies and approaches to address problematic situations that involve many interacting factors. It includes taking responsibility for planning and developing courses of action that initiate or underpin substantial change or development, as well as exercising broad autonomy and judgement. It should also reflect an understanding of the relevant theoretical and methodological perspectives and how they affect your area of study or work.

Career Opportunities

This programme is written from an employability enhancement perspective, creating the platform for students to embrace the spectrum of commercial and cultural opportunities available, encouraging real life engagements, networking and other activities.

One of the guiding principles and enhancements of this programme is a commitment to flexible learning, with creative flexible learning and teaching relationships and discourses in order to make sure that the student’s individual needs and projected career opportunities are at the centre of their activities. This flexibility and concentration on individual needs and opportunities within learning is placed primarily at the service of employability.

Students will be encouraged to embrace professional networks and create links with enterprise – locally, nationally and globally, as well as connect with external agencies and organisations. Additionally the postgraduate programme has great potential to contribute to the commercial, academic and applied research aspirations of the University and its desire to contribute knowledge to the field of innovation, product and transportation research and development.

Professional Accreditations

The programme is not accredited by any single professional body. The programme team encourages students to participate in the work of professional bodies such as the Chartered Society of Designers and the Royal Society of Arts. The programme also benefits from close collaboration with industry through annual live projects. This flexible relationship with industry and the professions allows students to engage with events and projects from a broad spectrum of external bodies.

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The School of Design offers a practice-based MRes pathway built on the wide range of our design research exploring the space between society and technology supported by expertise spanning Innovation Design Engineering, Global Innovation Design, Design Products, Healthcare Design, Service Design, Vehicle Design and Intelligent Mobility. Read more

The School of Design offers a practice-based MRes pathway built on the wide range of our design research exploring the space between society and technology supported by expertise spanning Innovation Design Engineering, Global Innovation Design, Design Products, Healthcare Design, Service Design, Vehicle Design and Intelligent Mobility.

The pathway welcomes a broad approach to design research and encourages experimentation in practice-based methods supported by experienced researchers. Approaches can range from User Centred Design, Ethnographic, Anthropological, Action Research, Participatory Design Research, Cybernetics, Grounded Theory, to Transformation Design, Speculative, and Critical Design. We encourage diverse candidates who want to focus on commercial research, to prepare for doctoral studies and a future career in academic research or use the programme for career change to develop new skills and identify new research interests. Students will be introduced to relevant design research tools, methods, methodologies, theories and epistemologies aimed at supporting the development of a personal research approach. Applicants to the MRes Design pathway will benefit from an advanced practice-based design research culture and enjoy the freedom and autonomy that a self-directed research journey allows.

The School of Design has a long history of design research that can be traced back to Bruce Archer and the NHS hospital bed design in the 1960s through to today’s researchers who are internationally engaged in a broad range of areas from intelligent mobility through to citizen science, the future of making, socio-cultural design, experimental design, design for safety, design policy, service design and artificial intelligence and robotics as well as providing strategic advice to government and agencies. Recent commercial research funding partners have included Huawei, Tata, Airbus, Microsoft, and Intel amongst others with grant-maintained funding from the AHRC, EPSRC and the Lloyds Register Foundation.

We also have an excellent set of visiting experts and a global network of research collaborators that we draw on in our integrated School-wide research culture. These also bring strong synergies with the other RCA Schools and expertise areas including the Helen Hamlyn Centre for Design combined with a strong local set of collaborations with the Science Museum, the Victoria and Albert Museum, the Design Museum and Imperial College London with whom we share three of our master’s programmes.The pathway encourages experimentation in practice-based research, supported by experienced researchers working on both commercial and grant maintained projects across the School’s major research themes, in areas including mobility, healthcare and the future of making. The training we provide through designing research and researching through design will be suitable for both commercial and academic careers as a stand-alone qualification and act as an accelerator to prepare for doctoral studies.

The School has an excellent set of commercial partners and a global network of research collaborators that we draw on in our integrated School-wide research culture. These also bring strong synergies and collaborations with the other RCA Schools and expertise areas including the Helen Hamlyn Centre and Sustain. Commercial research projects include working with Huawei, Tata, Airbus, Microsoft and Intel amongst others. We also have a strong local network that includes collaborations with the Science Museum, the Victoria and Albert Museum, the Design Museum and Imperial College London, with whom we share two of our masters programmes. Applicants to the MRes Design pathway will benefit from an advanced practice-based design research culture and enjoy the freedom and autonomy of a self-directed research journey.



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The session will provide a chance to meet the course leader and some current students who will share their projects and experiences. Read more
The session will provide a chance to meet the course leader and some current students who will share their projects and experiences. You will also take part in a design activity that will give you a real taste of what we do on the course in addressing social and sustainability challenges.

Choose Kingston's Sustainable Design MA

This course is aimed at designers, creative workers and other specialists who want to direct their practice towards progressive sustainability and social agendas. It focuses on the value of design as a vehicle for addressing social and ecological concerns in both developed and developing world settings. It will equip you with the knowledge, capabilities and confidence to challenge the status quo by applying design thinking to the generation of design-led interventions for a sustainable future.

Key features
-The overarching course philosophy, based on an emphasis on research, methodology and design thinking, allows individual and personal concerns to be explored through focused study in sustainable design.
-The course takes an inter-disciplinary approach to the study and practice of sustainable design, by recruiting students from all creative and design backgrounds and beyond.

What will you study?

The Sustainable Design MA is directed towards the goal of creating a more sustainable and equitable society. You will explore innovative and practical ways to help realise those visions, emphasising design, creativity, empathy, innovation and activism.

The course encourages critical thinking about the social and ecological agendas it addresses. The course is design-based, but not confined to design practice - it includes a significant amount of theoretical and contextual studies. It is possible to choose a dissertation option for the final major project.

You will be taught by leading academics and practitioners in sustainable design, social design, social innovation, participatory design, strategic design, service design, design-led innovation, and related topics. The course incorporates collaboration with partners such as Design Council, Futerra, Greengaged, Sorrell Foundation, ThinkPublic and Uscreates.

Assessment

Design project work, live projects, research project folders, 5,000-word critical essay, and a major design research project.

Course structure

The Sustainable Design MA course is part of the School of Design's postgraduate programme. The structure – shared with students from Communication Design MA, Product & Furniture Design MA, and Fashion MA – enables you to explore your individual specialist interests in sustainable design within an integrative learning environment that provides a comprehensive understanding of the value and role of interdisciplinary methods and ways of working. The influences and impact of thinking from other related design subjects on your own specialist study is an important aspect of the identity and the community of interdisciplinary practice at masters level in the School of Design.

This structure is designed to help progress and develop your independent learning, encouraging you to construct and explore projects concerned with areas of particular personal interests. The overarching course philosophy, based upon an emphasis on research, methodology and design thinking, allows individual and personal concerns to be explored through focused study in sustainable design.

The two shared modules of the School of Design's Postgraduate Framework both commence with a symposium, in which high-profile external speakers present their work and contribute to a debate on a topic of relevance to all courses in the Framework.

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It aims to produce successful individuals who can. - Understand the whole of the professional design development process and how the initial phases flow to inform the latter stages. Read more

Course Overview

It aims to produce successful individuals who can:
- Understand the whole of the professional design development process and how the initial phases flow to inform the latter stages.

- Appreciate commercial realities and the designer’s role in business.

- Design desirable products for bespoke, batch or mass manufacture.

- Understand sustainability, inclusively, and other important ethical and social issues that must be considered by today’s designers.

- Have traditional design skills such as sketching, dealing with form, communication and innovation.

- Are able to use design tools such as 3D CAD, CAM and rapid prototyping in order to optimise the design and reduce time to market.

The Cardiff School of Art & Design have substantial expertise in the delivery of courses at the interface of engineering and product design whilst the National Centre for Product Design & Development Research is one of the UK’s leading centres for rapid product design & development whose expertise covers the whole process from design management, concept and detailed design, ergonomics and CAD to prototyping, tooling and batch manufacture.

See the website https://www.cardiffmet.ac.uk/artanddesign/courses/Pages/mscapd.aspx

Course Content

MSc students take the following modules:
- APD401M Product Development Principles & Practice (20 Credits)
- APD403M Sustainability Issues in Design for Production (20 Credits)
- MAA7001 Research Methods in Art & Design (20 Credits)
- APD405M User Testing & Evaluation (20 Credits)
- APD406M Form Shape & Colour (20 Credits)
- APD407M Major Project (60 Credits)
- APD408M(A) Industrial Placement (20 Credits)

Each 20 credits is equivalent to 240 learning hours (80 typically are taught and 160 are directed study or independent study).

- Facilities
Dedicated studio space. Cardiff School of Art and Design offers an extensive range of spaces, workshops and equipment, creating a vibrant and creative learning environment, within a new purpose designed building and a fully renovated extension. Workshop and technical facilities include a foundry; and access to other workshops across the full range of Art and Design disciplines. Membership of the Fablab is included in the indicative coursework costs below. Cardiff School of Art and Design has a wide range of tools and equipment for use by students; necessary workshop training in their use includes access to materials used as part of timetabled workshop inductions. You also have access to and use of recycled materials within workshop areas.

Assessment

For each module, assessment is as follows:
- APD401M Product Development Principles & Practice (20 Credits) 6000 word equivalent assignment. This will normally be a written assignment.

- APD403M Sustainability Issues in Design for Production (20 Credits) 6000 word equivalent. This module will typically be assessed via a design project. A proportion of the assignment may however be awarded for written or presentatio​n work.

- MAA7001 Research Methods in Art & Design (20 Credits) Written submission, plus seminar presentation, typically 3,000 words plus a 10-20 minute presentation.

- APD405M User Testing & Evaluation (20 Credits) 6000 word equivalent. This module may be linked with others in order to provide a design project vehicle. In any case it will involve practical exercises and a proportion if not all of the assignment may be awarded for written or presentation work.

- APD406M Form Shape & Colour (20 Credits) 6000 word equivalent. This project is likely to be assessed through practical design activity, although a proportion of the assignment may be awarded for written or presentation work.

- APD407M Major Project (60 Credits). 18,000-word equivalent. Performance will be measured using the Final Report, Formal Presentation, Viva Voce examination and final product. Of the marks that are available for the project the allocation of the marks to each of the measures is as follows:

Final Report: 40%

Final Product (prototype): 40%

Formal Presentation: 5%

Viva Voce: 15%

- APD408M(A) Industrial Placement (20 Credits) 6000 word equivalent. A 3000 word ( maximum) report reflecting on the student’s experience within the professional working environment. A reflective placement Logbook (or Blog equivalent) recording critical reflections on events, activities and experiences. Important Note: Because of the difficulties of assessment in the workplace and the potential for disparity of treatment, this module is not awarded a mark other than “Pass” or “Fail”.

Support will be available through weekly small group seminars (normally no more than 16 students per group), exploring the theme of lectures and allowing students to clarify their understanding.

These sessions may also be workshops where practical demonstrations, involving student participation, are run. This may include, for example, communal writing or small group discourse analysis. Weekly tutorials will also be available.

Employability & Careers

Your year(s) of study with us enable you to develop professional contacts, observe how successful practitioners make their living, and hone your skills and ideas for commercial and professional advantage. Such cross-disciplinary collaborations prepare you for a world where you will inevitably work with people from all walks of life. Your live projects and assessments will get you accustomed to the importance of deadlines and working to specific briefs and tight specifications.

Over the next few years, CSAD will be developing opportunities for incubation of business proposals from its graduates and postgraduate training to get business opportunities up and running.

All students’ are expected to complete a portable ‘record of achievement’ and use their PDP to support employability and life-long learning, normally in the form of a blog, that integrates opportunities for self-reflection in programmes in order to help them develop as effective and confident learners.

Find information on Scholarships here https://www.cardiffmet.ac.uk/scholarships

Find out how to apply here https://www.cardiffmet.ac.uk/howtoapply

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This MSc programme offers you an advanced level of study in specific aspects of mechanical engineering which are in demand from industry. Read more

This MSc programme offers you an advanced level of study in specific aspects of mechanical engineering which are in demand from industry. You study develop knowledge and key skills in CAD/CAM and Product Development, Finite Element Methods and Machine Design and options available include Automotive Engineering and Vehicle Design, Manufacturing Systems, Project Management and Enterprise, Supply Chain Management and Applied Continuum Mechanics.

Course details

There are three routes you can select from to gain a postgraduate Master’s award:

  • MSc Mechanical Engineering – one year full time
  • MSc Mechanical Engineering – two years part time
  • MSc Mechanical Engineering (with Advanced Practice) – two years full time

The one-year programme is a great option if you want to gain a traditional MSc qualification – you can find out more here. This two-year master’s degree with advanced practice enhances your qualification by adding to the one-year master’s programme an internship, research or study abroad experience.

Professional accreditation

Our one-year MSc Mechanical Engineering is accredited to CEng level by the Institution of Mechanical Engineers under licence from the UK regulator, the Engineering Council. Accreditation is a mark of assurance that the degree meets the standards set by the Engineering Council in the UK Standard for Professional Engineering Competence (UK-SPEC). [include Engineering Council logo, Institution of Mechanical Engineers logo]

The accredited Masters-level award will provide you with the underpinning knowledge, understanding and skills in preparation for your registration as a Chartered Engineer (CEng). Some employers recruit preferentially from accredited degrees, and an accredited degree is likely to be recognised by other countries that are signatories to international accords.

The two-year MSc Mechanical Engineering with Advanced Practice incorporates all the elements of the one-year MSc and adds to these the advanced practice module. The new title is being prepared for formal recognition as accredited title. 

What you study

For the MSc with advanced practice, you complete 120 credits of taught modules, a 60-credit master’s research project and 60 credits of advanced practice.

Course structure

Core modules

  • CAD/CAM and Product Developments
  • Finite Element Methods
  • Machine Design
  • Practical Health and Safety Skills
  • Project Management and Enterprise
  • Research and Study Skills
  • Research Project (Advanced Practice)

and two optional modules

  • Applied Continuum Mechanics
  • Automotive Engineering and Vehicle Design
  • Manufacturing Systems
  • Supply Chain Management

Advanced Practice options

  • Research Internship
  • Study Abroad
  • Vocational Internship

Modules offered may vary.

Teaching

How you learn

You learn through lectures, tutorials and practical sessions. Lectures provide the theoretical underpinning while practical sessions give you the opportunity to put theory into practice, applying your knowledge to specific problems. 

Tutorials and seminars provide a context for interactive learning and allow you to explore relevant topics in depth. In addition to the taught sessions, you undertake a substantive MSc research project.

In addition to the taught sessions, you undertake a substantive MSc research project and the Advanced Practice module. This module enables you to experience and develop employability or research attributes and experiential learning opportunities in either an external workplace, internal research environment or by studying abroad. You also critically engage with either external stakeholders or internal academic staff, and reflect on your own personal development through your Advanced Practice experience.

How you are assessed

Assessment varies from module to module. It may include in-course assignments, design exercises, technical reports, presentations or formal examinations. For your MSc project you prepare a dissertation.

Your Advanced Practice module is assessed by an individual written reflective report (3,000 words) together with a study or workplace log, where appropriate, and through a poster presentation.

Employability

Mechanical engineers typically work in structural engineering, research and development, automotive engineering and design, the aerospace industry, manufacturing, processing and chemical industries as well as management positions.



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This MSc programme offers you an advanced level of study in specific aspects of mechanical engineering which are in demand from industry. Read more

This MSc programme offers you an advanced level of study in specific aspects of mechanical engineering which are in demand from industry. It is an ideal bridging programme for those graduates seeking to register as a Chartered Engineer with the Institution of Mechanical Engineers.

Course details

You study the core modules in CAD/CAM and Product Development, Finite Element Methods and Machine Design and you select three additional modules from Automotive Engineering and Vehicle Design, Manufacturing Systems, Project Management and Enterprise, Supply Chain Management and Applied Continuum Mechanics.

Professional accreditation

Our MSc Mechanical Engineering is accredited to CEng level by the Institution of Mechanical Engineers under licence from the UK regulator, the Engineering Council. Accreditation is a mark of assurance that the degree meets the standards set by the Engineering Council in the UK Standard for Professional Engineering Competence (UK-SPEC). 

The accredited Masters-level award will provide you with the underpinning knowledge, understanding and skills in preparation for your registration as a Chartered Engineer (CEng). Some employers recruit preferentially from accredited degrees, and an accredited degree is likely to be recognised by other countries that are signatories to international accords.

What you study

For the Postgraduate Diploma (PgDip) award you must successfully complete 120 credits of taught modules. For an MSc award you must successfully complete 120 credits of taught modules and a 60-credit master's research project.

Course structure

Core modules

  • CAD/CAM and Product Developments
  • Finite Element Methods
  • Machine Design
  • Practical Health and Safety Skills
  • Project Management and Enterprise
  • Research and Study Skills

and three optional modules

  • Applied Continuum Mechanics
  • Automotive Engineering and Vehicle Design
  • Manufacturing Systems
  • Supply Chain Management

MSc candidates

  • Project

Modules offered may vary.

Teaching

How you learn

You learn through lectures, tutorials and practical sessions. Lectures provide the theoretical underpinning while practical sessions give you the opportunity to put theory into practice, applying your knowledge to specific problems.

Tutorials and seminars provide a context for interactive learning and allow you to explore relevant topics in depth. In addition to the taught sessions, you undertake a substantive MSc research project.

How you are assessed

Assessment varies from module to module. The assessment methodology could include in-course assignments, design exercises, technical reports, presentations or formal examinations. For your MSc project you prepare a dissertation.

Employability

Mechanical engineers typically secure employment in structural engineering, research and development, automotive engineering and design, the aerospace industry, manufacturing, processing and chemical industries as well as management positions.



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This course is aimed at engineering graduates who wish to work in the automotive industry, with particular focus on the design, performance and operation of automotive powertrains and vehicle systems. Read more
This course is aimed at engineering graduates who wish to work in the automotive industry, with particular focus on the design, performance and operation of automotive powertrains and vehicle systems.

Our graduates have the technical and managerial skills and expertise that are highly sought after by the automotive industry.

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

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

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

Learning outcomes

By studying our MSc in Automotive Engineering you will:

- Understand the vehicle design process and the operation and performance of important sub-systems
- Analyse current and projected future environmental legislation and the impact this has on the design, operation and performance of automotive powertrain systems
- Analyse in detail the operation and performance indicators of transmission systems, internal combustion engines and after treatment devices.

Collaborative working

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

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

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

Structure

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

Semester 1 (October-January):
The first semester of our course allows students to choose from a range of fundamental and more advanced lecture courses covering the analysis methods and modelling techniques that are used in the simulation, design and manufacture of modern vehicles and powertrains.

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

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

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

Summer/Dissertation Period (June-September):
The full time summer project gives students the opportunity to develop their understanding of aspects of the automotive material covered in the first semester, through a detailed study related to the research interests and specialisations of a member of the academic staff. The students will often be working as part of a larger group of researchers including postgraduates, research officers and undergraduates and as such have access to the state of the art automotive test facilities within the department.

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

Subjects covered

- Heat transfer
- Engineering systems simulation
- Engine & powertrain technologies
- Professional skills for engineering practice
- Vehicle engineering
- Vehicle dynamics & aerodynamics

Career Options

Our MSc graduates now work all over the world in various industries, while a number of them pursue their Doctorates in universities worldwide. Recent graduates have secured jobs as:

- Calibration Engineer, Ford Motor Company Ltd
- Product Engineer, Renault
- Engineering Consultant, D'Appolonia

Companies which have hired our recent graduates include:

British Aerospace
Airbus UK
Intel
Ricardo
Cambstion
Panama Canal Authority
Moog Controls Ltd

About the department

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

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

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

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

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

We believe in producing leaders, not just engineers.

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

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

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

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Motorsport is one of the world's most dynamic, competitive industries - and engineers that master their craft have almost unlimited career opportunities. Read more

About the course

Motorsport is one of the world's most dynamic, competitive industries - and engineers that master their craft have almost unlimited career opportunities.

This MSc in Automotive Motorsport Engineering at Brunel equips graduates with the qualities and transferable skills they need to flourish at a senior level in an exacting industry.

The comprehensive curriculum covers a wide range of specialist skills sought within the industry – including core modules in:

Research methods and sustainable engineering
Racing team management and vehicle testing
Advanced vehicle dynamics, IC engines, materials and manufacturing

You’ll gain practical experience through a team project, and complete a dissertation of your choice, typically covering a design, experimental, computing or analysis subject.

Aims

The speed of change in motorsport is relentless -and engineers need to inovate to succeed. From F1 pit lane mechanics to testing specialists, engine and aerodynamics maestros to team managers and financial controllers, graduates from this course have a host of exciting and varied career options open to them.

The MSc programme at Brunel University helps you develop imagination and creativity to follow a successful engineering career with a mix of modules covering automotive and motorsport engineering topics, which delivers an integrating layer on top of subject specific first degree or professional skills.

Its primary focus is to create Master's degree graduates who are well equipped with the knowledge and skills to work in a multi discipline subject area, typically encountered in the automotive and motorsport engineering industry.

Course Content

The course will allow students the option of specialising in automotive engineering or motorsport engineering, both in the optional modules and the dissertation.

Every student also produces a group project, usually carried out with four or five other students. The group project involves the design, manufacture, assembly, and testing of a single seater racing vehicle, that will take part in the annual Formula Student competition in July with over 70 teams competing in the event.

Compulsory modules:

Research Methods and Sustainable Engineering
Racing Team Management and Vehicle Testing
Advanced Vehicle Dynamics, IC Engines, Materials and Manufacturing
Major Group Project
Dissertation

Optional Modules
Students choose two of the four modules below:

Advanced Modelling and Design
Advanced Thermofluids
Racing Legislation, Finance and Sponsorship
Racing Vehicle Design and Performance

Special Features

Excellent 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.

Brunel Automotive Lecture Series
Brunel’s Automotive Lecture Series is a special feature of the taught programmes in the areas of automotive and motorsport engineering. The Series consists of talks on technology and careers by industry leaders, alumni and expert technologists appropriate not only for late stage undergraduate and postgraduate students but also for researchers in the these areas. Topics include themes from the broader automotive and motorsport industry and its technologies including advanced powertrains, vehicle testing and advanced components.

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

The Automotive and Motorsport Engineering MSc at Brunel University is accredited by 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. For the final four months (June to September), students will conduct an individual project and prepare a dissertation, allowing the opportunity to undertake original research relating to the automotive and motorsport engineering fields.

The group project is conducted throughout the year and is assessed by means of project logbooks, oral presentations and final project reports.

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The unmanned systems industry is currently undergoing explosive growth; as a result there is an increased demand for unmanned vehicle systems designers. Read more

The unmanned systems industry is currently undergoing explosive growth; as a result there is an increased demand for unmanned vehicle systems designers. Our MSc Unmanned Aircraft Systems Design course has been created to provide graduate engineers with the necessary skills and knowledge to design unmanned airvehicle systems.

Introducing your degree

The future of exploration, transportation and conflict is in unmanned aircraft. Be the future and start a fascinating career on the precipice of national intelligence and technological advancements with a masters in Unmanned Aircraft Systems Design. Sometimes referred to as drones, UAVs, UAS or RPAS, unmanned aircraft are revolutionising our ability to monitor and understand our environment. 

This industry-led course focuses on the cutting-edge design of these sophisticated vehicles and is ideally suited to engineers looking to specialise or to enter into this fast-paced industry.

Overview

Due to the explosive growth of the industry, unmanned aircraft systems designers are in high demand. This course has been created to provide graduate engineers with the skills and knowledge needed to design unmanned aircraft systems.

You will be taught by leaders in the field. The University has a strong reputation in autonomous systems with many world firsts including: SULSA, the first 3D printed plane and the first low-cost maritime surveillance UAV, 2SEAS.

Practical learning is a fundamental part of this one-year course. You will design, build and fly your own unmanned vehicle as part of a group design project. Visit the Design Show website to see examples of students' projects. We provide you with access to world-class facilities to put your design through mission validation including: a UAV test pilot base and dedicated flying site, state-of-the-art wind tunnels and rapid prototyping labs. You will also have the opportunity to study for a pilot’s licence.

Your core modules will give you a solid foundation of aerospace control systems and avionics. You will master design methodologies and put these into practice. Each semester, you can select specialist modules that are aligned to your interests.

The emphasis of the course is on the design of the vehicle, rather than the wider systems such as ground station and software associated with navigation and communications. The course will explore civil and commercial applications of unmanned systems. Although some of the teaching material may reference military technology, the course will not cover military, defence or weapon-specific systems.

In addition to group work, you will undertake an individual research project. Previous examples include the development of a hybrid vehicle and a multi-rotor automated Li-Po battery changer. Our students also benefit from our many industry partnerships and external contributors, including QinetiQ and Rolls-Royce.

View the specification document for this course



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This Automotive Design MA course is suitable for both aspiring practitioners of automotive design and those aiming for design management positions. Read more
This Automotive Design MA course is suitable for both aspiring practitioners of automotive design and those aiming for design management positions.

This course will equip you with the skills required of a designer in the automotive industry. It contains elements of two and three-dimensional design and provides the opportunity to apply CAD to automotive projects.

WHY CHOOSE THIS COURSE?

-Lectures delivered by senior figures in automotive design and business
-Option of working on a project set by the automotive industry
-Recent collaborators include PSA (Peugeot-Citroen), Ford and Renault

WHAT WILL I LEARN?

The first term will be spent achieving a grounding in the basics of automotive design. Vehicle packaging, automotive modelling, and the business of the automotive industry are all covered in lectures, seminars and studio classes within the first three months. We have an ongoing programme of visiting lectures delivered by senior figures in automotive design, automotive journalism and business.

The second term will involve further skill developments plus a 'live' design project run in conjunction with the automotive industry. Our recent collaborators include PSA (Peugeot-Citroen), Ford and Renault. During this exciting project you will learn to work in teams to achieve a design output for demanding clients.

During the third term you will undertake more design projects and start researching for your MA major project. Your major project takes up the whole of the final term, leading up to the industry-sponsored MA Degree Show at the end of the year.

TEACHING CONTACT HOURS

We do not offer a part-time evening or weekend pattern of delivery, but if you wish to study part time during the day, please contact the course director to explore further.

HOW WILL THIS COURSE ENHANCE MY CAREER PROSPECTS?

Recent graduates have been recruited by manufacturers and consultants in Europe and the Far East keen to acquire their skills in and knowledge of the automotive design process. Career options include:
-Automotive design
-Research
-Teaching and design management

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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