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Masters Degrees (Car Design)

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The program in car design tools provides students with a tightly interlaced mix of strategic thinking, design and methodology. These courses are geared toward product and system innovation, marketing and communication insights as well as hard car design skills. Read more
The program in car design tools provides students with a tightly interlaced mix of strategic thinking, design and methodology. These courses are geared toward product and system innovation, marketing and communication insights as well as hard car design skills. Teaching is arranged into a balanced combination of theoretical teaching and project-based training.

The 1-year course is designed for candidates with an academic background non-relevant to the main area of study, wishing to acquire the essential set of skills to approach the design process.

Lessons are directly relevant to the requirements and the skills needed for the masters year, which is a continuation of this course and focuses on more specialized aspects.

The course lasts 10 months (from October until the end of July) and is entirely taught in English language.

PROFESSIONAL OPENINGS

Allows admission to the Master’s course in Transportation and Car Design.

ABOUT THE SCHOOL

Founded in Milan in 1954, SPD Scuola Politecnica di Design is the first postgraduate school for design disciplines in Italy. Situated in Milan, the capital of design, Scuola Politecnica di Design pioneered design education thanks to its solid grounding and to its peculiar approach integrating different domains: ergonomics, art, perception studies, semiotics.

Today, SPD is an international laboratory for the exchange of ideas, experience and creativity in order to develop projects. Since its foundation the school has welcomed an extraordinary community of students from various countries and backgrounds.

All courses are taught in a personalized and small learning environment promoting easy contact with the faculty and the staff. Indeed, at SPD every student is followed individually by a faculty formed by designers, professionals from different fields and visiting tutors.

The masters programs offered by SPD are organized in collaboration with IULM University, and award academic degrees recognized by the Italian Ministry of Education, The University and Research MIUR, corresponding to 60 credits under the ECTS system.

The teaching method at Scuola Politecnica di Design is arranged into intensive workshops, studio classes, theoretical lectures, seminars and visits. Research work is carried out in collaboration with leading companies such as Volkswagen, Microsoft, PepsiCo, Heineken, IKEA, Artemide and Poltrona Frau Group among the others.

These projects are deveopped according to an interdisciplinary approach which is a testing ground for the student’s skills, from the concept idea to its execution.

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This masters program embraces the entire design development process by researching new experiential concepts, redefining architectural solutions and redefining new standards for comfort and efficiency. Read more
This masters program embraces the entire design development process by researching new experiential concepts, redefining architectural solutions and redefining new standards for comfort and efficiency. Today’s design paradigm must be brought into question in order to better interpret new aesthetic and social trends.

The studio projects are organized in collaboration with major car companies, and provide a platform for students to develop and test their ideas. In particular, SPD has signed a long term educational partnership with Volkswagen Group Design involving the participation of designers from the various brands – from Audi to Lamborghini – into teaching activities.

After the initial exploration, students move into design concepts and their refinement up to both physical and digital modeling. It’s a long process that demands a high level of personal commitment and flexibility, organizational and time management skills as well as a strong attitude to teamwork.

Projects are subject to group critiques and critiques with outsider reviewers. Transportation designers thus acquire a constant spur to innovation both in form language and function, allied with the understanding of engineering and production processes.
The course lasts 15 months (from October until December) and is entirely taught in English language.

QUALIFICATION

After passing the final exam, eligible students will obtain a Master’s Degree from IULM and SPD. The Master corresponds to 60 ECTS credits.

ABOUT THE SCHOOL

Founded in Milan in 1954, SPD Scuola Politecnica di Design is the first postgraduate school for design disciplines in Italy. Situated in Milan, the capital of design, Scuola Politecnica di Design pioneered design education thanks to its solid grounding and to its peculiar approach integrating different domains: ergonomics, art, perception studies, semiotics.

Today, SPD is an international laboratory for the exchange of ideas, experience and creativity in order to develop projects. Since its foundation the school has welcomed an extraordinary community of students from various countries and backgrounds.

All courses are taught in a personalized and small learning environment promoting easy contact with the faculty and the staff. Indeed, at SPD every student is followed individually by a faculty formed by designers, professionals from different fields and visiting tutors.

The masters programs offered by SPD are organized in collaboration with IULM University, and award academic degrees recognized by the Italian Ministry of Education, The University and Research MIUR, corresponding to 60 credits under the ECTS system.

The teaching method at Scuola Politecnica di Design is arranged into intensive workshops, studio classes, theoretical lectures, seminars and visits. Research work is carried out in collaboration with leading companies such as Volkswagen, Microsoft, PepsiCo, Heineken, IKEA, Artemide and Poltrona Frau Group among the others.

These projects are deveopped according to an interdisciplinary approach which is a testing ground for the student’s skills, from the concept idea to its execution.

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The two-year Master course in. Transportation Design. is an advanced training programme designed for Italian and foreign professionals. Read more

The two-year Master course in Transportation Design is an advanced training programme designed for Italian and foreign professionals. It provides specific analytic, critical and methodological skills for the creation of innovative and stunning vehicles while developing a personal design style. Thanks to an on-going relationship with companies and design centres, it contributes to the creation of very sought-after profiles. The Master course represents a unique training offer, because not only it prepares students in the Transportation Design field, but it also allows to specialise in the Car Interior Design and User Experience and the Exterior Design majors.

Career opportunities – Graduates from the Car Interior Design major can work as Experts in multimedia products for automotive companies, design centres and firms active in the development of user interaction interfaces. At the end of the Car Exterior Design major, students can hold positions as Car Exterior Design Experts able to face design projects from the concept to its prototype creation. 



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This MSc Product Design programme is for students with a background in design, engineering or related areas. The course and modules aim to develop and enhance your innovation skills and knowledge required to achieve successful product design development and innovation. Read more
This MSc Product Design programme is for students with a background in design, engineering or related areas. The course and modules aim to develop and enhance your innovation skills and knowledge required to achieve successful product design development and innovation.

You will develop a high level of creativity and design ideas as a part of your response to possible market opportunities. This is a key element to your learning on this programme.

The course will also enable you to develop a critical understanding of sustainable factors and its relevance and importance to all our futures. The course creates opportunities for students to originate new ideas and model or prototype design solutions that will meet perceived manufacturing, marketing and consumer needs.

Subject guide and modules

The range of modules reflects the nature of innovative design solutions plus the additional knowledge and skills required to put it into practice professionally. Elective module selection is detailed in the Programme Specifications.

Core Taught Modules
-New Product Development (EM4006)
-Research Project (PD4001)
-Product Design Innovation (PD4002)
-Sustainable Design (PD4005)
-Innovation Business Development (PD4008)
-Design Realisation (PD4009)
-International Studies (PD4010)

Optional Taught Modules
-Strategic Management (EM4002)
-Computational Fluid Dynamics and Applications (ME4501)
-Finite Element Analysis: Theory and Application (ME4502)
-Renewable Energy (ME4504)
-CAD Principles and Materials Selection (ME4505)
-Advanced Computer Aided Design (ME4518)

The Major Project module is completed between April and September.
-Major Project (PD4000)

Learning, teaching & assessment

The modules in this programme are delivered with lectures, seminars and lab-based tutorials giving a good balance between scientific methodologies and hands-on practice.

Creativity will underpin much of the interactive work during this course. Developed ideas can be manufactured using a variety of techniques including the use of our range of Rapid – Prototyping equipment.

Modules are assessed mainly through coursework, although some modules may also have exams. The major project is assessed by dissertation and supporting design work. Examples of past major projects range from the development of innovative Rigging for Stunt Kite Boarding, Race Car Suspension using composite technologies with Innovative Designs to the use of Solar Energy to help cool domestic conservatories.

Personal development

This is an interactive course aimed to develop your knowledge and understanding of the changes, developments and potential opportunities that face us all in a Global economy. You will create and deliver a major project and develop effective research and specification skills.

Semester 1 modules will enable you to develop the knowledge, skills and expertise required for this level of work, as well as the opportunity to initiate the research for the major project idea. Semester 2 modules will enable you to extend your professional understanding and expertise through module coursework, individual projects and teamwork.

You will also make several individual presentations and get chance to hone your interview techniques.

Professional accreditation

This programme is fully accredited by the Institution of Engineering Designers leading to Chartered Engineering status (CEng).

Career prospects

Career prospects for graduates are excellent On completion of this one year course the student should be able to confidently develop their own product ideas and innovations ‘ready for manufacture and marketing’, start their own design business enterprise, or enter new product development organisations and other creative businesses at a higher level of responsibility.

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This Interior Design course will suit recent graduates who already have some academic knowledge of interior design or interior products, but wish to deepen their design skills and understanding of the wide range of the interior design workfield. Read more
This Interior Design course will suit recent graduates who already have some academic knowledge of interior design or interior products, but wish to deepen their design skills and understanding of the wide range of the interior design workfield.

WHY CHOOSE THIS COURSE?

In this MA course the student has the possibility to focus on a specific field where their strength lies. The course interior design explores the human scale and relationship in the continuously changing context of the spatial environments.

You will be given the opportunity to learn to develop and design within a broad range of spatial environments, while considering the scale of the environment, manufacturing processes and exclusivity.

WHAT WILL I LEARN?

The MA Course Interior design covers the wide scope of the work-field expressed in the axiom SMLXL (Small, Medium, Large, Extra Large).

Within the modules there is the possibility to explore the specific scale of the work field of interior design while learning specific skills in one of the fields of SMLXL.

Small: development and research in specific skills for the production of interior products such as e.g. furniture, lighting, interior fabrics, carpets and paints, this in close relationship with local and national industry and manufacturers. The students have the possibility to deepen their knowledge about manufacturing and developing Interior products.

Medium: development and research in specific skills for medium interior projects such as e.g. domestic design, small shops, car interiors and small events, this by developing trends, brands and prognoses. The students have the possibility to deepen their skills of architectural and planning and knowledge about brand identity.

Large: development and research in specific skills for large Interior projects such as e.g. hotels, offices, boat interiors, train interiors, this by developing complex proposals for interiors within brand Identity, new media, the architectural context and (urban) spatial context. The students have the possibility to deepen their knowledge about complex planning in a architectural environment with a complex brand and new media identity.

Extra large: development and research in specific skills for extra large interior design projects such as e.g. university campus, hospitals, cruise ships, airports, this by developing managements skills in developing, designing and planning within an architectural environment with a complex management structure.

TEACHING CONTACT HOURS

The average teaching contact hours will be 18 hours per week. 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?

The knowledge gained by the CU interior design graduates will enable them to find employment internationally as well as nationally and the nature of the course will provide strong international recruitment.

OPPORTUNITIES FOR AN INTERNATIONAL EXPERIENCE

The course will have strong connections with industry and other universities in Europe as well as other overseas territories like Asia, and Northa and South America. Collaborations in China are already being developed as well as associations with academia and industry in The Netherlands.

GLOBAL LEADERS PROGRAMME

Centre for Global Engagement logoTo 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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The Product Design Enterprise MSc was developed to interest graduates from a business or design background. Read more
The Product Design Enterprise MSc was developed to interest graduates from a business or design background. To enhance knowledge and understanding of the principles underlying professional product design, and enable the student to develop appropriate entrepreneurial skills enabling viable manufacturing, marketing or business enterprises.

The programme requires the student to undertake 10 taught modules and to complete a major project of approximately 15,000 words. Each taught module involves up to 22 contact hours per week, including lectures, tutorials, seminars and project classes. The course will run from October to September with examinations/assessments held in December and March/April. The Research Project explores fully the feasibility of the Major Project, which must be completed by early September.

Modules

Core Modules
-Product Design Innovation (PD4002)
-New Product Development (EM4006)
-Research Project (PD4001)
-Sustainable Design (PD4005)
-Innovation Business Development (PD4008)
-Design Realisation (PD4009)
-International Studies (PD4010)
-Major Project (PD4000)

Elective modules
-Management of Change (EM4005)
-Renewable Energy (ME4504)
-Finite Element Analysis: Theory and Application (ME4502)
-Advanced Computer Aided Design (ME4518)

Learning Teaching & Assessment

The modules in this programme are delivered with lectures, seminars and lab-based tutorials giving a good balance between scientific methodologies and hands-on practice.

Creativity will underpin much of the interactive work during this course. Developed ideas can be manufactured using a variety of techniques including the use of our range of Rapid – Prototyping equipment.

Modules are assessed mainly through coursework although some modules may also have exams. The major project is assessed by dissertation and supporting design work.

Examples of past major projects range from the development of innovative Rigging for Stunt Kite Boarding, Race Car Suspension using composite technologies with Innovative Designs to the use of Solar Energy to help cool domestic conservatories.

Professional Accreditation

This programme is fully accredited by the Institution of Engineering Designers leading to Chartered Engineering status (CEng).

Career Opportunities & Personal Development

This programme is suitable for candidates seeking to develop their own product ideas and innovations ‘ready for manufacture and marketing’, start their own design business enterprise, or enter new product development organisations at a higher level of responsibility.

This is an interactive course aimed to develop your knowledge and understanding of the changes, developments and potential opportunities that face us all in a Global economy. You will create and deliver a major project and develop effective research and specification skills.

Semester 1 modules will enable you to develop the knowledge, skills and expertise required for this level of work, as well as the opportunity to initiate the research for the major project idea. Semester 2 modules will enable you to extend your professional understanding and expertise through module coursework, individual projects and teamwork.

You will also make several individual presentations and get chance to hone your interview techniques.

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Strate School of Design is one of the best Transportation design schools in the world. There is not a single car company without Strate alumni. Read more
Strate School of Design is one of the best Transportation design schools in the world. There is not a single car company without Strate alumni. Strate trains transportation designers for tomorrow, capable of developing a transversal and global vision of all mobility issues with a double exigency in terms of formal and conceptual excellence.

During this 19 months program, students will be trained to become strong professionals thanks to an intensive project- based pedagogy, car manufacturer master classes and partnerships, and a strong emphasis on all representation techniques (2D/3D).

Pedagogy:

1st semester

4 Design projects
Artistic techniques: Perspective, Sculpture, Color, Sketches, Modeling
Software tools: 3D, 2D
Classes: Methodology, Humanities and Social Sciences, Marketing, French
Conferences by Professionals
2nd Semester

3 Design projects
Artistic techniques: Sketches, Modeling
Software tools: 3D, 2D, Video
Classes: Humanities and Social Sciences, Marketing, French
Conferences by Professionals
Beginning of Diploma project: Thesis
3rd Semester

1 Design project
Artistic techniques: Sketches
Diploma project: Thesis, Project
Classes: Humanities and Social Sciences, French
Master Classes
Professionalization: Entrepreneurship, Coaching
4th Semester

Internship

Job opportunities

When you Graduate from Strate in Transportation Design you'll have a wide range of jobs opportunities, such as : Exterior Designer, Interior Designer, Color & Trim designer, Consultant Designer for automotive brands, Design Manager, Equipment Designer

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GRADUATES OF THE INTERACTION DESIGN PROGRAM WILL CREATE RICHLY INTERACTIVE PRODUCTS AND SERVICES THAT ENHANCE MEANING AND EXPAND POSSIBILITIES IN PEOPLE’S DAILY LIVES. Read more
GRADUATES OF THE INTERACTION DESIGN PROGRAM WILL CREATE RICHLY INTERACTIVE PRODUCTS AND SERVICES THAT ENHANCE MEANING AND EXPAND POSSIBILITIES IN PEOPLE’S DAILY LIVES

Interaction Design brings together students of design, art and technology who have a strong portfolio in concepts, work process, aesthetic execution and passion for serving human needs through interactive experiences.

Your studies at CCS will be grounded in human-centered design practices that will prepare you for the changing nature of work and collaboration in the 21st century. Through the College’s unique curriculum, you will develop deep systems literacy – a timeless framework for understanding rapidly changing technology platforms and economic, market and social challenges. You will become adept with models of interaction and conversation that sharpen your insights and enable you to increase choice for all of your users. You will learn how value creation has evolved in today’s networked, information-driven global economy and how to innovate through design.

Upon graduation, you will be qualified to work inside of tech companies and design firms, from established players to startups. You will know how to design websites and apps for the delight of the experience and effectiveness in achieving users’ goals. You might design a professional online network for consultants who want to work together flexibly, and enhance their skills and reputations along the way. You might prototype a mobile app for small businesses that need real-time alerts and coordinated schedules to keep productivity high and costs low. Or you might invent entirely new experiences for sharing rides in a self-driving car.

The College’s unique program balances research, systems modeling and making, teaching you how to step beyond the limits of today’s technology and market demands to shape desired futures through design. For your career, you can choose where you want to contribute: from designing products to coding prototypes to running product strategy or a combination. You will have the skills to persuade and influence your co-workers, who will be experts in technology, marketing and business, by understanding their language and working as their peer. You will have an appreciation for the challenges of innovation and for what is required to start your own enterprise.

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Could you see yourself designing high performance bikes, working with racing car teams or producing ground breaking medical components? You could follow in the footsteps of some of our graduates and begin shaping your own exciting career in mechanical engineering. Read more
Could you see yourself designing high performance bikes, working with racing car teams or producing ground breaking medical components? You could follow in the footsteps of some of our graduates and begin shaping your own exciting career in mechanical engineering.

You will distinguish yourself professionally with a degree accredited by the Institution of Mechanical Engineers (IMechE) and the Institute of Materials, Minerals and Mining (IoM3) for Chartered Engineer status. You can apply to either of these institutions for membership as a Chartered Engineer.

Key features

-Open the door to a successful future. Our graduates have gone on to work for Ferrari, Honda, British Cycling, Rolls-Royce, Williams Grand Prix Engineering, Activa, Babcock Marine, Princess Yachts and more.
-Primed for your career: 82 per cent of our students are in a professional or managerial job six months after graduation. (Source: unistats)
-Benefit from an optional 48 week paid work placement.
-Distinguish yourself professionally with a degree accredited by the Institution of Mechanical Engineers (IMechE) and the Institute of Materials, Minerals and Mining (IoM3) for Chartered Engineer status. You can apply to either of these institutions for membership as a Chartered Engineer.
-Develop a strong foundation in mechanical engineering principles and materials science.
-Choose from specialist modules in composites engineering, design and manufacture.
-Experience modern laboratory facilities for practical work which is a core part of the degree.
-Benefit from working on industrially relevant problems within composite materials and design of composite structures.

Course details

Year 1
In Year 1, you’ll acquire a sound foundation in design, mechanics, materials, electrical principles, thermo-fluids, mathematics and business, learning by active involvement in real engineering problems. You‘ll undertake a popular hands-on module in manufacturing methods. Modules are shared with the MEng and BEng (Hons) in Mechanical Engineering and the MEng and BEng (Hons) Marine Technology.

Core modules
-MECH120 Skills for Design and Engineering (Mechanical)
-THER104 Introduction to Thermal Principles
-BPIE115 Stage 1 Mechanical Placement Preparation
-MECH117 Mechanics
-MECH118 Basic Electrical Principles
-A5MFT1 Mech BEng 1 MFT Session
-MATH187 Engineering Mathematics
-MATS122 Manufacturing and Materials
-MECH121PP Team Engineering (Engineering Design in Action)

Year 2
In Year 2, you’ll build your knowledge of composite materials in preparation for specialist modules in the final year. The central role of design integrates with other modules like structures and materials. You'll also study modules on thermodynamics, fluid mechanics, business dynamics, mathematics and control and quality management.

Core modules
-BPIE215 Stage 2 Mechanical Placement Preparation
-CONT221 Engineering Mathematics and Control
-HYFM230 Fluid Mechanics 1
-STRC203 Engineering Structures
-MECH232 Engineering Design
-MFRG208 Quality Management l
-MATS234 Materials
-THER207 Applied Thermodynamics
-STO208 Business for Engineers

Optional placement year
In Year 3, you're strongly encouraged to do a year’s work placement to gain valuable paid professional experience. We will support you to find a placement that is right for you. Our students have worked for a variety of companies from BMW Mini, Bentley, Babcock Marine to NASA. A successful placement could lead to sponsorship in your final year, an industrially relevant final year project, and opportunities for future employment.

Optional modules
-BPIE335 Mechanical Engineering Related Placement

Year 4
In Year 4, you’ll specialise in composites design, engineering and manufacture. You’ll undertake an group design project. Additional modules of study include statistics and quality management. You'll also develop your knowledge and skills through an in-depth project on a topic of your choice.

Core modules
-HYFM322 Computational Fluid Dynamics
-MFRG311 Quality Management II
-MATS347 Composites Design and Manufacture
-PRME307 Honours Project
-MATS348 Composites Engineering
-MECH340 Engineering Design

Final year
In your final year, you'll extend your existing skills in engineering design, analysis and control theory. Broaden your knowledge by studying subjects such as entrepreneurship, advanced information technology, robotics and marine renewable energy. You’ll also work in a design team with students from other engineering disciplines working on projects such as design, materials and environmental issues related to bioenergy production, gas/nuclear power stations, energy from the sea and eco villages.

Core modules
-MECH532 Applied Computer Aided Engineering
-MECH533 Robotics and Control
-MECH534 Product Development and Evaluation
-MAR528 Mechanics of MRE Structures
-PRCE513 Interdisciplinary Design
-MECH544 Data Processing, Simulation and Optimisation of Engineering Systems

Every undergraduate taught course has a detailed programme specification document describing the course aims, the course structure, the teaching and learning methods, the learning outcomes and the rules of assessment.

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GRADUATES OF THE MFA PROGRAM IN TRANSPORTATION DESIGN WILL BE INNOVATORS, IN AUTOMOTIVE DESIGN AND ALL ASPECTS OF MOBILITY, ALWAYS WITH AN EYE TOWARD THE FUTURE. Read more
GRADUATES OF THE MFA PROGRAM IN TRANSPORTATION DESIGN WILL BE INNOVATORS, IN AUTOMOTIVE DESIGN AND ALL ASPECTS OF MOBILITY, ALWAYS WITH AN EYE TOWARD THE FUTURE

Building on your art and creativity, the College’s MFA program in Transportation Design will bring you together with other bright, forward-thinking students from design and engineering disciplines who want to delve into the invention and entrepreneurial aspects of transportation design.

In this program, you will take on the role of “designer as inventor,” and learn how to integrate innovation with real-world business strategy, including business practices, research, brand identity, vehicle architecture and mobility as a system. The curriculum will lead you through a complete design process – extensive research, sketching and 3D rendering, animation, core competencies analysis and more – and will include special projects that explore innovation through forms and materials, functionality and engineering. It’s a unique approach that will teach you how to combine creativity and research with business realities to create new brand value.

Studying at CCS will put you at the very center of transportation design. In the College’s studios and labs – housed in the same building where Harley Earl, the first modern automotive designer, and other renowned researchers and designers pioneered groundbreaking vehicles – an automotive executive or other industry leader is very likely to stop in to engage informally with students. The College’s alumni are designers at every major car manufacturer and nearly all the Tier 1 auto suppliers, at racing and defense companies like Pratt & Miller, and consulting in firms as far away as Vietnam and Abu Dhabi. You will participate in design competitions, internships and sponsored projects from the Big 3 and Tier 1 and 2 suppliers. With these exceptional networking advantages, CCS is the ideal place to develop the knowledge, skills and entrepreneurial outlook that will enable you to influence the future of transportation.

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

Computer simulation is now an established discipline that has an important role to play in engineering, science and in newly emerging areas of interdisciplinary research.

Key Features of Simulation Driven Product Design

Using mathematical modelling as the basis, computational methods provide procedures which, with the aid of the computer, allow complex problems to be solved. The techniques play an ever-increasing role in industry.

Swansea University has been at the forefront of international research in the area of computational engineering. Internationally renowned engineers at Swansea pioneered the development of numerical techniques, such as the finite element method, and associated computational procedures that have enabled the solution of many complex engineering problems.

MSc by Research in Simulation Driven Product Design 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

Engineering at Swansea University has utilised an award of £3M from the Science Research Infrastructure Fund (SRIF) to provide state-of-the-art research facilities.

Simulation Driven Product Design research students will benefit from one of the most advanced university computing facilities in Europe.

Hardware includes a 450 cpu Cluster, high-end graphics workstations and high-speed network links. Extensive software packages include both in-house developed and 'off-the-shelf' commercial.

Links with Industry

The Zienkiewicz Centre for Computational Engineering has an extensive track record of industrial collaboration and contributes to many exciting projects, including the aerodynamics for the current World Land Speed Record car, Thrust SSC, and the future BLOODHOUND SSC, and the design of the double-decker super-jet Airbus A380.

Research

The Research Assessment Exercise (RAE) in 2008 ranked Engineering at Swansea University as 8th in the UK for the combined score in the research quality across the Engineering disciplines.

World-leading research

The RAE showed that 73% of research produced by academic staff is classified as world-leading (4*) or of internationally excellent (3*) quality.

Research pioneered at the College of Engineering, Swansea University 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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This programme will equip you with the knowledge and skills you need to meet the needs of the automotive industry in the advanced areas of analysis, design and manufacture. Read more

This programme will equip you with the knowledge and skills you need to meet the needs of the automotive industry in the advanced areas of analysis, design and manufacture.

Traditionally, the sector has been associated with high-volume vehicle manufacture, but the past decade has seen the landscape shift towards automotive component manufacturers and specialist design and consultancy house.

This course will prepare you to work in a range of different settings. Core modules will develop your knowledge of key fields such as chassis and driveline engineering, as well as vehicle and product systems design. You’ll then choose from optional modules on topics that suit your own interests and career intentions.

We put particular emphasis on computational methods and software packages in automotive engineering analysis, design and manufacture. Depending on the modules you choose, you could use Matlab, Abaqus finite element code, Fluent CFD, SolidWorks CAE and LabView (DAQ and control).

Specialist facilities

You’ll benefit from working in world-class specialist facilities for different aspects of automotive engineering. These include a brake test area and measurement lab, as well as the latest industry-standard software for computational fluid dynamics and finite element modelling of systems and materials. ADAMS software is also available for suspension simulation.

High-level CNC and wire EDM facilities are available in the Faculty workshop, and we have cutting-edge tribology facilities to study wear on engine parts. There’s even a ‘stirred bomb’ for characterising fuel ignition and advanced engines with optical access. If you get involved with Formula Student race car, you’ll also use our dedicated car build area including computerised engine test bays.

This programme is also available to study part-time over 24 months.

Accreditation

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

Course content

Core modules will give you a solid knowledge base in key areas of automotive engineering. You’ll build your understanding of how vehicle and product systems are designed and developed, as well as automotive driveline and chassis engineering.

This foundation will allow you to gain specialist knowledge in areas that particularly interest you when you choose from our range of optional modules. You could focus on topics such as computational methods, tribology, combustion in engines or applications of mechatronics among many others.

Throughout the programme you’ll complete your Professional Project – an independent piece of research on a topic within mechanical engineering that allows you to demonstrate your knowledge and skills.

In the two taught semesters you’ll review the literature around your topic and plan the project, before completing the design, analysis, computation, experimentation and writing up in the summer months. You could even get involved with the Formula Student race car through your project.

If you choose to study part-time, you’ll extend your studies over a longer period so you can take fewer modules in each year.

Want to find out more about your modules?

Take a look at the Automotive Engineering module descriptions for more detail on what you will study.

Course structure

Compulsory modules

  • Automotive Chassis Engineering 15 credits
  • Automotive Driveline Engineering 15 credits
  • Vehicle and Product Systems Design 15 credits
  • Professional Project 75 credits

Optional modules

  • Vehicle Design and Analysis 20 credits
  • Mechatronics and Robotics Applications 15 credits
  • Engineering Computational Methods 15 credits
  • Surface Engineering 15 credits
  • Introduction to Tribology 15 credits
  • Computational Fluid Dynamics Analysis 15 credits

For more information on typical modules, read Automotive Engineering MSc(Eng) Full Time in the course catalogue

For more information on typical modules, read Automotive Engineering MSc(Eng) Part Time in the course catalogue

Learning and teaching

Our groundbreaking research feeds directly into teaching, and you’ll have regular contact with staff who are at the forefront of their disciplines. You’ll have regular contact with them through lectures, seminars, tutorials, small group work and project meetings.

Independent study is also important to the programme, as you develop your problem-solving and research skills as well as your subject knowledge.

Assessment

You’ll be assessed using a range of techniques including case studies, technical reports, presentations, in-class tests, assignments and exams. Optional modules may also use alternative assessment methods.

Projects

The professional project is one of the most satisfying elements of this course. It allows you to apply what you’ve learned to a piece of research focusing on a real-world problem, and it can be used to explore and develop your specific interests.

Recent projects for MSc Automotive Engineering students have included:

  • Regenerative braking systems – Impact on fuel consumption and vehicle stability in HEVs
  • Thermo-mechanical analysis of disc brake for vehicle rollaway
  • Coated lightweight brake rotors
  • Designing, Measuring and Modelling of Vehicle Dynamics

A proportion of projects are formally linked to industry, and can include spending time at the collaborator’s site over the summer. You can also get involved with projects linked to the design, construction and testing of the Formula Student race car.

Career opportunities

Career prospects are excellent and with this qualification you should expect to find employment in the automotive and motor sport industries.

Graduates from this programme are working for employers such as Bentley Motors, BMW UK, Jaguar Land Rover, Honda, Nissan Motor Company, Renault F1 (Lotus Renault GP), Red Bull Racing and Ricardo UK.

Alternatively, you may choose to work in the general engineering industry, undertake PhD study or move into a completely different field such as finance or teaching.




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Demand for aerospace engineering graduates is rising, both in the UK and overseas. In fact, the UK aerospace industry is the second biggest in the world after the USA, and it’s home to some of the world’s leading aerospace companies such as Airbus, Astrium, BAE Systems, GKN and Rolls-Royce. Read more

Demand for aerospace engineering graduates is rising, both in the UK and overseas. In fact, the UK aerospace industry is the second biggest in the world after the USA, and it’s home to some of the world’s leading aerospace companies such as Airbus, Astrium, BAE Systems, GKN and Rolls-Royce.

Taught by expert academics in a leading research environment, this programme will equip you with the knowledge and skills to succeed in an exciting and challenging sector. You’ll study aerospace structures and structural analysis, along with optional, specialist modules in areas such as aerodynamics and computational fluid dynamics, aircraft design, systems and optimisation methods, rotary wing aircraft and propulsion.

Our Aerospace Engineering Industrial Advisory Board is actively engaged in ensuring this course meets the needs of industry and reflects trends in the sector. It also provides industrial talks and seminars and advice and support to our students during their professional projects.

In addition to our advanced CAD facilities for design work, we have the latest industry-standard software for computational fluid dynamics and finite element modelling of material stress analysis, programming and structural and multidisciplinary optimisation.

Accreditation

We are currently seeking accreditation from the Institute of Mechanical Engineers (IMechE) and the Royal Aeronautical Society.

Course content

You’ll take a compulsory module in Semester 1 which develops your knowledge of aerospace structures and the theory behind aerospace structural analysis, as well as applying this understanding to real-world problems.

This will inform the rest of your studies, where you’ll select from a wide range of optional modules allowing you to pursue the topics that appeal to your interests or suit your future career plans. You could gain sophisticated knowledge in areas such as aerospace vehicle design, computational methods or materials failure analysis.

Throughout the programme you’ll complete your Professional Project – an independent piece of research on a topic within aerospace engineering that allows you to demonstrate your knowledge and skills. In the two taught semesters you’ll review the literature around your topic and plan the project, before completing the design, analysis, computation, experimentation and writing up in the summer months.

Want to find out more about your modules?

Take a look our Aerospace Engineering module descriptions for more detail on what you will study.

Course structure

Compulsory modules

  • Aerospace Structures 15 credits
  • Professional Project 75 credits

Optional modules

  • Materials Selection and Failure Analysis 15 credits
  • Design Optimisation - MSc 15 credits
  • Aerospace Vehicle Design 20 credits
  • Aerodynamics and Aerospace Propulsion 20 credits
  • Finite Element Methods of Analysis 20 credits
  • Mechatronics and Robotics Applications 15 credits
  • Engineering Computational Methods 15 credits
  • Rotary Wing Aircraft 15 credits
  • Vehicle and Product Systems Design 15 credits
  • Computational Fluid Dynamics Analysis 15 credits

For more information on typical modules, read Aerospace Engineering MSc in the course catalogue

Learning and teaching

Our groundbreaking research feeds directly into teaching, and you’ll have regular contact with staff who are at the forefront of their disciplines. You’ll have regular contact with them through lectures, seminars, tutorials, small group work and project meetings.

Independent study is also important to the programme, as you develop your problem-solving and research skills as well as your subject knowledge.

Assessment

You’ll be assessed using a range of techniques including case studies, technical reports, presentations, in-class tests, assignments and exams. Optional modules may also use alternative assessment methods.

Projects

The professional project is one of the most satisfying elements of this course. It allows you to apply what you’ve learned to a piece of research focusing on a real-world problem, and it can be used to explore and develop your specific interests.

Typical projects for MSc Aerospace Engineering students could include:

  • Design of a stiffened titanium aircraft structural component for additive manufacturing
  • Development of software based on Swarm Intelligence Methodologies for Structural Optimisation
  • Circulation control using air jets to improve the performance of aircraft wings and wind turbines
  • Design and optimisation of a Flexible Structural Support for a Mars Rover Umbilical Release Mechanism
  • Aerodynamic analysis of the Bloodhound supersonic car using Computational Fluid Dynamics
  • Computational Fluid Dynamics modelling of turbulent combustion processes
  • The control of flow separation using vortex generators

A proportion of projects are formally linked to industry, and can include spending time at the collaborator’s site over the summer.

Career opportunities

The aerospace industry is one of the most successful parts of UK engineering and is truly global in nature.

You’ll be able apply the skills you gain from this course to numerous areas of the aerospace industry, such as aerospace fundamental research, airline management and operations, satellite operations, aerospace design and manufacture in both the civil and military environments and Formula 1 racing.

Whether you join an aerospace company in the UK, such as Airbus, BAE Systems or Rolls-Royce or choose to work elsewhere in the world, the foundation provided by the MSc will make sure you are prepared for a rewarding and challenging career.

Links with industry

During this course you will meet employers from organisations operating within this sector through seminars and talks and by attending our careers fair. In previous years there have been talks from colleagues at Airbus, Astrium, BAE Systems, Rolls-Royce to provide additional industrial perspectives to the course and career guidance to students. 



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Summary. Our MSc Race Car Aerodynamics emphasises the fundamentals of aerodynamics and centres on the analysis, modelling and measurement of turbulent flows associated with high performance race cars. Read more

Summary

Our MSc Race Car Aerodynamics emphasises the fundamentals of aerodynamics and centres on the analysis, modelling and measurement of turbulent flows associated with high performance race cars. It suits graduates or qualified individuals from engineering, scientific and mathematical backgrounds wishing to specialise in aerodynamics for highspeed vehicles.

Modules

Compulsory modules: Applications of CFD; Experimental Methods for Aerodynamics; Race Car Aerodynamics; Race Car Design/ GDP; Turbulence: Physics and Modelling; MSc Research Project

Optional modules: two from: Advanced Computational Methods I; Numerical Methods; Advanced Computational Methods II; Automobile Systems; Automotive Propulsion; Design, Search and Optimisation; Flow Control; Systems Reliability; Wing Aerodynamics

Visit our website for further information.



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Make future breakthroughs within healthcare with the MSc Biomedical Engineering with Healthcare Technology Management course. This course is for inquisitive students who want to design, develop, apply or even manage the use of cutting-edge methods and devices that will revolutionise healthcare. Read more
Make future breakthroughs within healthcare with the MSc Biomedical Engineering with Healthcare Technology Management course.

Who is it for?

This course is for inquisitive students who want to design, develop, apply or even manage the use of cutting-edge methods and devices that will revolutionise healthcare. It is open to science and engineering graduates and those working within hospitals or related industry who want to work in healthcare organisations, in the medical devices industry, or in biomedical engineering research.

The course will suit recent graduates and/or clinical engineers with a technical background or those working in healthcare who want to move into a management position.

Objectives

With several medical conditions requiring extensive and continuous monitoring and early and accurate diagnosis becoming increasingly desirable, technology for biomedical applications is rapidly becoming one of the key ingredients of today and tomorrow’s medical care.

From miniaturised home diagnostic instruments to therapeutic devices and to large scale hospital imaging and monitoring systems, healthcare is becoming increasingly dependent on technology. This course meets the growing need for biomedical and clinical engineers across the world by focusing on the design of medical devices from conception to application.

One of the few accredited courses of its kind in London, the programme concentrates on the use of biomedical-driven engineering design and technology in healthcare settings so you can approach this multidisciplinary topic from the biological and medical perspective; the technological design and development perspective; and from the perspective of managing the organisation and maintenance of large scale equipment and IT systems in a hospital.

This MSc in Biomedical Engineering with Healthcare Technology Management course has been created in consultation and close collaboration with clinicians, biomedical engineering researchers and medical technology industrial partners. The programme fosters close links with the NHS and internationally-renowned hospitals including St. Bartholomew's (Barts) and the Royal London Hospital and Great Ormond street so that you can gain a comprehensive insight into the applied use and the management of medical technology and apply your knowledge in real-world clinical settings.

Placements

In the last few years there have been some limited opportunities for our top students to carry out their projects through placements within hospital-based healthcare technology groups or specialist London-based biomedical technology companies. Placement-based projects are also offered to selected students in City’s leading Research Centre for Biomedical Engineering (RCBE). As we continue our cutting-edge research and industrial and clinical collaborations, you will also have this opportunity.

Academic facilities

As a student on this course you will have the opportunity to work with cutting-edge test and measurement instrumentation – oscilloscopes, function generators, analysers – as well as specialist signal generators and analysers. The equipment is predominantly provided by the world-leading test and measurement equipment manufacturer Keysight, who have partnered with City to provide branding to our electronics laboratories. You also have access to brand new teaching labs and a dedicated postgraduate teaching lab. And as part of the University of London you can also become a member of Senate House Library for free with your student ID card.

Teaching and learning

You will be taught through face-to-face lectures in small groups, where there is a lot of interaction and feedback. Laboratory sessions run alongside the lectures, giving you the opportunity to develop your problem-solving and design skills. You also learn software skills in certain modules, which are taught inside computer labs. We also arrange hospital visits so you gain hands-on experience of different clinical environments.

We arrange tutorials for setting coursework, highlight important subject areas, conduct practical demonstrations, and offer support with revision. You are assessed by written examinations at the end of each term, and coursework assignments, which are set at various times throughout the term.

You also work towards an individual project, which is assessed in the form of a written thesis and an oral examination at the end of the summer. The project can be based on any area of biomedical engineering, telemedicine or technology management and will be supervised by an academic or clinical scientist with expertise in the subject area. Many projects are based in hospital clinical engineering departments, or if you are a part-time student, you can base the project on your own workplace. You will have regular contact with the supervisor to make sure the project progresses satisfactorily. Some of the programme’s current students are working on a project focusing on devices that use brain signals to move external objects such as a remote control car and a prosthetic arm.

Some of the previous projects students have worked on include:
-A cursor controller based on electrooculography (EOG)
-Modelling a closed-loop automated anaesthesia system
-Design of a movement artefact-resistant wearable heart rate/activity monitor
-Review of progress towards a fully autonomous artificial mechanical heart
-Design of smartphone-based healthcare diagnostic devices and sensors.

If you successfully complete eight modules and the dissertation you will be awarded 180 credits and a Masters level qualification. Alternatively, if you do not complete the dissertation but have successfully completed eight modules, you will be awarded 120 credits and a postgraduate diploma. Completing four modules (60 credits) will lead to a postgraduate certificate.

Modules

Along with the 60 credit dissertation eight core modules cover diverse subject areas including biomedical electronics and instrumentation, technology infrastructure management, as well as the latest advances in medical imaging and patient monitoring.

The course includes a special module which gives you an introduction to anatomy, physiology and pathology designed for non-clinical science graduates.

The most innovative areas of biomedical and clinical engineering are covered and the content draws from our research expertise in biomedical sensors, bio-optics, medical imaging, signal processing and modelling. You will learn from academic lecturers as well as clinical scientists drawn from our collaborating institutions and departments, which include:
-Charing Cross Hospital, London
-The Royal London Hospital
-St Bartholomew's Hospital, London
-Basildon Hospital
-Department of Radiography, School of Community and Health Sciences, City, University of London

Modules
-Anatomy, Physiology and Pathology (15 credits)
-Physiological Measurement (15 credits)
-Biomedical Instrumentation (15 credits)
-Medical Electronics (15 credits)
-Cardiovascular Diagnostics and Therapy (15 credits)
-Medical Imaging Modalities (15 credits)
-Clinical Engineering Practice (15 credits)
-Healthcare Technology Management (15 credits)

Career prospects

This exciting MSc programme offers a well-rounded background and specialised knowledge for those seeking a professional career as biomedical engineers in medical technology companies or research groups but is also uniquely placed for offering skills to clinical engineers in the NHS and international healthcare organisations.

Alumnus Alex Serdaris is now working as field clinical engineer for E&E Medical and alumna Despoina Sklia is working as a technical support specialist at Royal Brompton & Harefield NHS Foundation Trust. Other Alumni are carrying out research in City’s Research Centre for Biomedical Engineering (RCBE).

Applicants may wish to apply for vacancies in the NHS, private sector or international healthcare organisations. Students are encouraged to become members of the Institute of Physics and Engineering in Medicine (IPEM) where they will be put in touch with the Clinical Engineering community and any opportunities that arise around the UK during their studies. Application to the Clinical Scientist training programme is encouraged and fully supported.

The Careers, Student Development & Outreach team provides a professional, high quality careers and information service for students and recent graduates of City, University of London, in collaboration with employers and other institutional academic and service departments. The course also prepares graduates who plan to work in biomedical engineering research and work within an academic setting.

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