Masters Programs in Engineering Design

Compare 30 Masters Programs in Engineering Design

Engineering Design

A masters degree in Engineering design helps one to focus on the production market with the designing of products the main agenda of the program. Formation of products is the goal of the program and graduates are expected to gain the relevant skills to be able to compete favorably in the product markets. This masters program aims at providing the graduate of the program with the skills and the ability to understand the market and to design products that can compete favorably with other products in the market.

Graduates get to gain an understanding of how the shaping and the aesthetic design functions together for the product brand. The students also get to experience the strict demands for tolerance and the functionality of the product. A masters program in engineering design imparts organizational and technical skills in the product environment, designing of complex products as well as innovative ones, and engineering. Important skills in the program that every student is expected to gain by the end of the course include: calculation skills, and the application of science. These skills come in handy for the student during problem solving. A masters degree in engineering design requires the students to undergo: project participation exercises, do modeling, simulation, redesigning, measuring up and making of prototypes. The employment opportunities available for graduates of this masters program include careers in manufacturing, construction field, consultancy in car production, oil branch and space technology, boat constructions, and house building detailing. Due to the high level of specialization of the program, graduates of this program are highly marketable and easily find themselves attractive jobs.

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Cycle Ingénieur Génie Civil

Université Internationale de Casablanca
Campus Full time 3 years August 2017 Morocco Casablanca

Le Cycle Ingénieur en Génie Civil se déroule en 6 semestres dont 1 en tronc commun et prépare l’étudiant au titre d’ingénieur capable de répondre aux besoins des secteurs des bâtiments, travaux publiques et infrastructures. La fonction des ingénieurs en Génie Civil se décline en plusieurs activités: la conception, la réalisation, l’exploitation, la gestion, l’entretien et la réparation d’ouvrages. [+]

Masters in Engineering Design. Le Cycle Ingénieur en Génie Civil se déroule en 6 semestres dont 1 en tronc commun et prépare l’étudiant au titre d’ingénieur capable de répondre aux besoins des secteurs des bâtiments, travaux publiques et infrastructures. La fonction des ingénieurs en Génie Civil se décline en plusieurs activités: la conception, la réalisation, l’exploitation, la gestion, l’entretien et la réparation d’ouvrages. ADMISSIONS L’accès en 2 ème année est ouvert, sur étude de dossier, aux : Titulaires d’un Master 1 en mécanique, Génie Mécanique, en sciences des matériaux ou d’un diplôme équivalent. SPÉCIALISATION ET PFE La dernière année d’études se compose de deux parties bien distinctes : Le semestre (S9) est consacré aux cours de spécialité. C’est également une ouverture à la recherche pour ceux parmi les étudiants qui souhaitent entamer des études doctorales. Actuellement les options proposées aux étudiants en génie civil sont : Option Travaux Publics (TP) : Cette spécialité permettra au futur ingénieur d’être un acteur central, en mesure d’opérer efficacement dans tous les domaines touchant à la conception, la réalisation ainsi qu’à l’exploitation et la maintenance des équipements tels que : les infrastructures : routes, voies ferrées, ponts et ouvrages d’art divers… les ouvrages hydrauliques les ouvrages géotechniques (tunnels, travaux souterrains divers…) Option Bâtiments (BAT) : Le contenu de cette spécialité permettra au futur ingénieur d’être un acteur fondamental pour toutes les problématiques liées aux domaines du bâtiment aussi bien résidentiel qu’industriel. Cela concerne les aspects de conception, de réalisation et d’entretien des ouvrages. L’aspect... [-]

Master of Engineering Science in Structural Engineering

UCD College of Engineering and Architecture
Campus Full time Part time 1 - 2 years September 2017 Ireland Dublin + 1 more

Studying this Masters, you will cover a wide range of topics not traditionally covered in undergraduate degrees; the programme includes specialist modules in structural dynamics, bridge engineering, structural design and professional engineering. [+]

MEngSc Structural Engineering FT Graduate Taught (level 9 nfq, credits 90) Studying this Masters, you will cover a wide range of topics not traditionally covered in undergraduate degrees; the programme includes specialist modules in structural dynamics, bridge engineering, structural design and professional engineering. You will also learn how to work in a multidisciplinary setting through combined modules with Architecture students. Structural engineering is a continually evolving profession, and through the third Semester Research Project you will learn how to apply this specialist knowledge to develop new concepts and ideas under the supervision of research active academic staff. This programme will distinguish you as having specialist knowledge in the area of Structural Engineering and provide you with a competitive edge over your peers in the job market. Multidisciplinary learning through collaborative modules with the School of Architecture and industry Advanced taught modules in structural design, conservation and sustainability Application of specialist knowledge to solve problems in new or emerging structural engineering applications This programme is delivered by a School ranked in the top 200 in the QS world subject rankings. Who should apply? Full Time option suitable for: Domestic(EEA) applicants: Yes International (Non EEA) applicants currently residing outside of the EEA Region. Yes Part Time option suitable for: Domestic(EEA) applicants: Yes International (Non EEA) applicants currently residing outside of the EEA Region. No This programme is suitable for students expecting to graduate with an Honours Degree in Engineering, or those already in employment, who wish to specialise in the area of... [-]

Master (MA/MSc) Computational Design

Ravensbourne
Campus Full time Part time 1 - 2 years August 2017 United Kingdom London + 1 more

The MA/MSc Computational Design opens up for the possibilities of computer programming within a research lead context for the creative industries. [+]

Masters in Engineering Design. The MA/MSc Computational Design opens up for the possibilities of computer programming within a research lead context for the creative industries. This postgraduate degree course is positioned and seeks to assist you to engage with the huge wave of interest in the open source communities surrounding the coding developments such as openFrameworks, Arduino, Processing and Cinder. These freely available libraries of code and hardware bring the power of computing and interaction to a much wider base of creative users and you will immediately see the imaginative potential that they offer. Instruction in visual programming with Max/Msp, Pure Data and VVV may also be offered. You will be shown examples of projects that make use of such devices such as the Kinect, Leap Motion and motion capture. Project work will offer opportunities to put this knowledge into practice in order to propose inventive solutions that respond to the movement of the human figure. The combination of data drawn from the position of the figure and a three dimensional virtual environment has opened up a fascinating discussion about the nature of human choreographic gesture and the way it can have a simultaneous effect both in the digital and real world domains. Quadrocopters, robotics and the control of kinetic movements will come within the research focus of the course offering you a wide variety of possible outcomes. Ravensbourne has a very well resourced rapid prototyping facility and students on the MA/MSC Computational Design will have the opportunity to combine... [-]

Master in Software and Service Architectures (SSA)

EIT Digital Master School
Campus Full time 2 years September 2017 Germany Berlin Netherlands Eindhoven Finland Espoo United Kingdom London France Paris Sweden Stockholm Italy Trento Hungary Budapest Spain Madrid + 16 more

The programme in Software and Service Architectures is an enhanced version of the previous programme on Service Design and Engineering and aims to educate the next generation of service designers and software architects capable of designing and engineering novel software systems to: (i) Drive digitalization of businesses, (ii) Create new businesses based on software intensive services, (iii) Be responsible for the elicitation and definition of what software products and services IT companies should create in order to be successful; (iv) Be responsible for the processes and methods for the effective development of modern software systems. [+]

Formerly known as: Service, Design and Engineering SDE) Why study the EIT Digital Software and Service Architectures programme? The EIT Digital SSA programme offers: Innovative and well grounded education for the next generation of service designers and software architects. Studies at two of Europe´s foremost technical universities leading to a double degree. A good integration with tailored courses in Innovation and Entrepreneurship. A thesis work connected to interesting industrial challenges. Access to the competence of eight EIT Digital innovation action lines (link) not least through a summer school between the two years. Access to the co-location centres and innovation ecosystems of the nine EIT Digital nodes. What is the programme all about? The programme in Software and Service Architectures is an enhanced version of the previous programme on Service Design and Engineering and aims to educate the next generation of service designers and software architects capable of designing and engineering novel software systems to: (i) Drive digitalization of businesses, (ii) Create new businesses based on software intensive services, (iii) Be responsible for the elicitation and definition of what software products and services IT companies should create in order to be successful; (iv) Be responsible for the processes and methods for the effective development of modern software systems. The SSA programme is an interdisciplinary programme that offers courses to enable graduates to take on the following challenges: What software-based businesses should be developed (user centric needs and business focused opportunities) How should software be developed (modern and agile software engineering methodologies... [-]

MSc in MECHANICS AND MACHINE DESIGN

Cracow University of Technology
Campus Full time 3 semesters February 2018 Poland Kraków

Program description: Advanced Computational Mechanics (ACM) is addressed for students who want to increase their knowledge in mechanics and computer application in design of structures (CAD, FEM), material design (CAMD), material selection (CAMS), manufacturing (CAM) and monitoring of machines. Program of studies: Regular: Advanced mathematics (4 ECTS), Engineering mathematics II (2 ECTS), Solid state physics (2 ECTS), Continuum mechanics (2 ECTS), Analytical mechanics (2 ECTS), Numerical methods II (2 ECTS), Objectoriented programming (1 ECTS), Material science II (4 ECTS), Modern structural materials (2 ECTS), Advanced modeling of materials and structures (5 ECTS), Modeling in machine design (4 ECTS), Integrated processing systems (3 ECTS), Advanced FEM modeling (4 ECTS), Advanced strength of materials (2 ECTS), Dynamics of mechanical systems (2 ECTS), Experimental mechanics of solids (2 ECTS), Individual project (5 ECTS), Seminar (3 ECTS), Final project (20 ECTS) Total: 675 h [+]

Masters in Engineering Design. [-]

Master in Transportation Design

IAAD Istituto D'Arte Applicata e Design
Campus Full time 10 months May 2018 Italy Turin

IAAD department of “Car Body Architecture” first in Italy opened in Turin in 1978. Since 2008 it is entitled in memory of Andrea Pininfarina. [+]

IAAD department of “Car Body Architecture” first in Italy opened in Turin in 1978. Since 2008 it is entitled in memory of Andrea Pininfarina. The specialization in Transportation design deals with the study of the main means of transport with a focus on mobility systems and environmental sustainability. Turin is the undisputed world capital of automotive design and one of the centres of excellence in the international automotive industry: the great Italian production of Fiat, Lancia, Alfa Romeo and Ferrari, the design of Giugiaro and Pininfarina, Bertone, the automotive innovation of Centro Ricerche Fiat, the robotic technologies of DEA, Comau and Rambaudi, the innovation of Oxygen (electric alternative mobility), not to mention an enormous satellite activities that serves not only Fiat, but almost all of the major car manufacturers in Europe and the world. To confirm this today also Chinese design companies choose Turin as European seat. Thanks to this important supply chain, IAAD Transportation design department is flanked by a pool of important partner companies both public and private, which contribute to the activation of research projects, special lectures, workshops and seminars, company visits, educational activities and internships. MASTER OBJECTIVES IAAD have always had the goal of providing an innovative approach to training: the best way to become a professional in transportation is being apprenticed to learn from experts in the field. With this insight, IAAD is the first Italian university of higher education specializing in transportation design. The design work done in collaboration with IAAD partner companies which... [-]

MEng in Structural Engineering (Lectured)

University of Johannesburg
Campus Full time Part time 18 - 24 months February 2018 South Africa Johannesburg + 1 more

The purpose of the programme is to develop an engineer with advanced abilities in applying fundamental structural engineering sciences, design and synthesis to specific structural engineering problems in society at large. One of the main objectives is to develop an advanced capability to do fundamental structural engineering research independently and, in so doing, promote lifelong learning. [+]

Masters in Engineering Design. The purpose of the programme is to develop an engineer with advanced abilities in applying fundamental structural engineering sciences, design and synthesis to specific structural engineering problems in society at large. One of the main objectives is to develop an advanced capability to do fundamental structural engineering research independently and, in so doing, promote lifelong learning. Qualification outcomes Exit level outcomes: The qualified student will be able to: Identify, assess, formulate, interpret, analyse and solve structural engineering research and development problems creatively and innovatively by applying relevant fundamental knowledge of i.e. mathematics, basic science and engineering sciences in the chosen field of research. Plan and manage structural engineering research projects demonstrating underlying fundamental knowledge, understanding and insight into the principles, methodologies and concepts that constitute socially responsible (to local and other communities) engineering research/development in the chosen field of research practice. Work effectively individually or with others as a member of a team, group, organization, and community or in multidisciplinary environments in the chosen field of research Organise and manage him/herself and his/her activities responsibly, effectively, professionally and ethically and take responsibility within his/her own limits of competence and to exercise judgment commensurate with knowledge and expertise, pertaining to the field of research Plan and conduct applicable level of investigations, research and /or experiments by applying appropriate theories and methodologies and perform data analysis and interpretation Communicate effectively, both orally and in writing, with engineering and specifically research audiences and the community at large in so... [-]

Master in Engineering Design

KTH Royal Institute of Technology
Campus Full time September 2017 Sweden Stockholm

The Master’s programme in Engineering Design educates engineers by promoting excellent technical and organisational skills in product development, engineering and design of complex and innovative products. Students of the programme will choose one of three [+]

Master in Engineering DesignThe Master’s programme in Engineering Design educates engineers by promoting excellent technical and organisational skills in product development, engineering and design of complex and innovative products. Students of the programme will choose one of three specialisations: Machine Design, Mechatronics or Combustion Engines.Programme outlineThe programme is structured to enhance technical skills, as well as to give an introduction to various aspects of engineering design. The specialisations include a set of advanced courses which are compulsory and constitute two-thirds of the total course work.The first semester consists of basic courses in engineering design, modelling, programming (Mechatronics track), robustification (Machine Design track) and combustion technology (Combustion Engineering track). The second semester consists of advanced courses within your specialisation, and voluntary courses. During the third semester a large industrial project is the basis for an advanced course within your selected field. The programme concludes with a thesis project that can be performed in either an industrial setting or in an academic environment. Each student is encouraged to actively search for a suitable thesis project in industry, and KTH will provide information on helpful points of contact.Degree projectThe thesis project is supervised by an experienced researcher and can be performed in an industrial setting or in an academic environment. Exchange students are recommended to find a thesis project in their country of permanent residence or where they intend to begin a professional career.Career prospectsEngineering Design professionals educated at KTH work in a wide range of fields: as technology specialists at large industrial... [-]


ME in Civil and Environmental Engineering

Clarkson University Graduate School
Campus Full time Part time 1 - 2 years September 2017 USA Potsdam + 1 more

The Master of Engineering (ME) program in the Department of Civil and Environmental Engineering focuses on engineering practice and design. It can be completed within one calendar year and consists of up to 24 credits of graduate-approved coursework, (up to 18 in the major subject area and six in a minor area), and up to seven credits from a design project. [+]

Masters in Engineering Design. The Master of Engineering (ME) program in the Department of Civil and Environmental Engineering focuses on engineering practice and design. It can be completed within one calendar year and consists of up to 24 credits of graduate-approved coursework, (up to 18 in the major subject area and six in a minor area), and up to seven credits from a design project. A design project is an integral part of the Master of Engineering program. It is intended to be an intensive team experience managed by the students and involving the examination and analysis of a real-world problem followed by the implementation of a design decision. Often, the problem will be drawn from the actual experiences of the design engineers who are available for interaction with the design team. The design team will be responsible for the preparation of written interim and final reports and, at the conclusion of the program, will make a formal non-graded presentation open to students, faculty and other interested parties. Partial tuition scholarships are available for the Master of Engineering program. Transfer to the MS program is permitted up to the end of the first semester of study. Admission Requirements A BS, BE or equivalent degree from an accredited program in Civil and Environmental Engineering or other engineering discipline is required for admission. Applicants with degrees in disciplines other than engineering may be required to demonstrate proficiency through additional undergraduate coursework as determined by the departmental Graduate Committee. This may comprise an... [-]

Master in Advanced Engineering Materials

Technical University of Ostrava
Campus Full time 2 years September 2017 Czech Republic Ostrava

In the Master’s study programme students firm and fill knowledge and skills acquired during bachelor study. Furthermore, they gain further knowledge and skills to be able to understand the depth and breadth of engineering materials in interrelationships. [+]

Study Branch Materials Engineering Branch Profile The new Master’s study branch Advanced Engineering Materials in the study programme Materials Engineering is based on the integration of three former study branches: Engineering Materials, Materials Diagnostics and Design, Non-Ferrous Metals and Special Alloys. These study branches represented the principal study branches in the study programme Materials Engineering in the past. The Master’s study branch Advanced Engineering Materials picks up on the study branch having the same name in the bachelor study programme. In the Master’s study programme students firm and fill knowledge and skills acquired during bachelor study. Furthermore, they gain further knowledge and skills to be able to understand the depth and breadth of engineering materials in interrelationships. The conception of the new study branch is the following: There are fundamental subjects such as Physics of Solids, Phase Transformations, Degradation Processes of Materials, Surface Engineering, Computer Simulation and Modelling in Materials Engineering. These subjects are suitably combined with other subjects in order to fulfil the learning outcomes given hereinafter. It can be assumed that the new Master’s study branch Advanced Engineering Materials will become the most important study branch in the Master’s study programme Materials Engineering. Key Learning Outcomes Knowledge Graduates will have gained a deep knowledge of the subjects that represent an applied base of the study branch, e.g. physics of solids, phase transformations, degradation processes of materials, surface engineering etc. in such a level, which makes possible their application in other subjects and also in engineering practice. Graduates are... [-]

Graduate Smart Grid

laSalle Barcelona Postgraduate
Campus Full time 5 months October 2017 Spain Barcelona

The Graduate Smart Grid (Smart Grid) (PXEI) created with the aim of training professionals who can meet the demands of the energy sector in the coming years, which necessarily dominate the technologies involved in the Smart Grid (smart grid ). [+]

Masters in Engineering Design. The grid will become increasingly intelligent due to the implementation of information technology and communications, as embodied in: - Distributed energy generation, which complement the traditional centralized generation, making systems required specific remote. - Automatic power measurement and automatic switching loads. - The distribution automation and control systems. The Degree in Smart Grid (Smart Grid) (PXEI) created with the aim to train professionals who can meet the demands of the energy sector in the coming years, which necessarily dominate the technologies involved in the Smart Grid (smart grid). In this context, the graduate focuses on all fundamental aspects of smart grids (Smart Grids), which are distributed generation systems, systems metering (AMR, AMI, AMM), EMS (Energy Management System) as well as the role of electric vehicles and the need for the smart Grid to advance the concept of intelligent city (smart city). the energy market, power systems planning and applicable regulations will also be addressed. ADDRESSED TO • Telecommunication engineering and / or computer (Technical Engineering, Engineering Degree or above) who wish to focus their career towards information technologies applied to the electricity sector and the concept of smart grid (smart grid). • Professionals with a minimum of experience in the electricity sector and / or telecommunications who want to focus their career towards information technologies applied to the electricity sector and the concept of smart grid (smart grid). PREPARES FOR Give a complete picture of all the actors involved in the concept of Smart Grid (Smart... [-]

Master In Automotive Production Engineering

Fraunhofer Academy
Campus Part time 5 semesters October 2017 Germany Munich Baden-Württemberg + 1 more

In the courses, great importance is placed on a continuous interaction between theoretical and scientific knowledge and practical application. [+]

Study contents The course includes content from the three areas of expertise: A: manufacture and production technology Automotive B: Management and Leadership / Entrepreneurial activity C: Methodological and practical project skills An individual deepening of technical content is possible in elective modules. Study Organization eg preparatory courses, modules, elective and core courses etc. Admission Requirements - A first professionally qualifying degree (eg bachelor, diploma) in an engineering degree program (minimum 180 ECTS) - Applicants must also be at the time of study entry in ungekündigter and professionally relevant employment Content of the course In the courses, great importance is placed on a continuous interaction between theoretical and scientific knowledge and practical application. This orientation is supported by accompanying scientific and technological enterprise projects during the first 4 semesters. Through elective modules, students can expand their individual skills either strong in the engineering expertise in automotive production technology or set priorities in the field of leadership and management in the automotive industry. 1st semester: Materials Science automotive materials, lightweight construction concepts, Industrial Production 1, Logistics and Supply Chain Management 1, Entrepreneurial activity / International Management and more. 2nd semester: Industrial Production 2 (assembly technology, robotics and transport equipment), digital technology in production, instruments for quality management, strategic management, and more. 3rd semester: Quality assurance and non-destructive testing, Industrial Production 3 Logistics and Supply Chain Management 2, International Business Communication and more. 4th semester: Industrial production 4, vehicle and mobility concepts, marketing and sales, performing employees and more. 5th semester: Development of... [-]

Master in Advanced Mechatronics

Université Savoie Mont Blanc
Campus Full time 4 semesters September 2017 France Annecy-le-Vieux

Mechatronics is a synergistic and integrated process of several sciences and skills (among which control and computer sciences, electronics, mechanics) which allows to conceive and to design products and systems with augmented or improved functionality and which requires to consider the conception of the product or system in its overall lifecycle in a cooperative interdisciplinary approach. [+]

Masters in Engineering Design. Subject to the agreement of the French Minister of National Education, Higher Education and Research OBJECTIVE Mechatronics is a synergistic and integrated process of several sciences and skills (among which control and computer sciences, electronics, mechanics) which allows to conceive and to design products and systems with augmented or improved functionality and which requires to consider the conception of the product or system in its overall lifecycle in a cooperative interdisciplinary approach. After having completed this program, the students are be prepared for Ph.D studies. They can also work as engineers or occupy high level technical and scientific positions in research centers, in research and development departments and in specialized consulting firms. COMPETENCIES AND KNOW-HOW The Master’s students gain the skills to meet the requirements of a multidisciplinary mechatronic project and they become familiar with the requirements of a research activity through blended learning including project-based learning. 3 main competencies are developed during the curriculum through supervised sessions, on-line courses and projects: Design and achieve a mechatronic system • implementing the lifecycle of the system or product • implementing an integrated process of multiphysics and multi-technology modeling, simulation and design • choosing, designing and implementing the required sensors and instrumentation • designing the mechanical and/or electromechanical architecture • choosing, designing and implementing the digital infrastructure present IN and located AROUND the system Manage a research project • organizing his/her activity and the activity of his/her team • reporting to the research program manager • considering the... [-]

Master in Transportation Design

IED – Istituto Europeo di Design Torino
Campus Full time 2 years March 2018 Italy Turin

The Master in Transportation Design offered by the Istituto Europeo di Design sets itself up as an incubator for tomorrow's professionals and, thanks to an ongoing relationship with Companies closely involved in this sector, it intends to contribute to the creation of very sought after and highly specialised professionals. Over the course of two years on a full-time basis, the Master expects to hone and develop the student's competence in terms of his/her critical approach, analytical and methodological skills, providing the tools to start creating his/her own innovative concepts; in other words the aim is to train these professionals who will have the sensibility, courage and competence to imagine and design the vehicles of tomorrow. [+]

THIS PROGRAM IS TAUGHT IN ENGLISH Target Admission to the Master Course is restricted to graduates from IED or from private schools of similar area and degree holders in fields of the Design area. One may also request to be admitted directly to the second year of the Master course if one is already provided with a diploma or a three years or five years degree in Transportation Design from a public or private institution that is equivalent to University level. Methodology and program The program foresees a first year designed to provide students with the theoretical design tools required for the production of 1:4 scale models that will represent the final projects of the first part of the Master Course. During the second year the students will be expected to perform as if they were in a real working environment, simulating the team work found in a professional design studio equipped with all the most innovative IT tools. At this final stage the Master course will actually operate as an experimental workshop. For every second course year a Style Centre will commission Istituto Europeo di Design of Turin to come up with a project to develop a concept car. The students will have to face up to the challenge and collaborate in carrying out this project, like a real team, handling all the various stages of project development and all the problems that a style centre has to deal with, right up to the production of a 1:1 scale... [-]

Master of Interaction Design

Estonian Academy of Arts
Campus Full time 2 years August 2017 Estonia Tallinn

The MA in Interaction Design programme focuses on human-centered design. The ongoing evolution of smart consumer technology has increased the need for well-designed intuitive user interfaces and experiences. [+]

Masters in Engineering Design. Interaction Design (IxD) is a rapidly developing creative field. The ongoing evolution of smart consumer technology has increased the need for well-designed intuitive user interfaces and experiences. Be it a mobile app, the front-end of a web-based service or a complex system involving different digital and physical experiences, interaction design is an essential part of it. Interaction designers aim to make users’ encounters with sophisticated information and machinery as simple and pleasant as possible. Our program focuses on human-centered design. User research, analysis and testing form the foundation of the curriculum. Theoretical studies are built around practical design projects based on real briefs by companies from Estonia and abroad. User-based, agile design and product/service development methods ensure the sound outcome of the projects. The cooperation of our Master’s programme with the department of Graphic Design lends a solid focus to the skills and tools of graphic user interface design — data visualisation, digital typography, visual design, motion graphics, GUI prototyping, etc. Cooperation with the departments of Product Design, Interior Architecture and the programme of Design & Engineering expands the scope of the curriculum to tangible interaction and interactive spaces. Physical computing, wearable tech and virtual reality are covered by study projects. Graduates of the Interaction Design Master’s programme will be well equipped to run complex product/service development projects and to manage international multi-disciplinary teams. We expect our students to represent a wide variety of backgrounds. Previous experience in design and software development is helpful, but by... [-]