INDUSTRIAL DESIGN ENGINEERING MASTERTRACK EMERGING TECHNOLOGY DESIGN TECHNOLOGY DRIVEN, HUMAN CENTERED Theo van der Meer
INDUSTRIAL DESIGN ENGINEERING
EMERGING TECHNOLOGY DESIGN Smart Products Electronics Biomedical Technology Fluid & Solid mechanics Materials and Surface Energy
EMERGING TECHNOLOGY DESIGN You like to: understand new technologies make technologies available for community convert state of the art theories/technologies in new or existing products integrate technology and design be the bridge between research environments and market/industry
EMERGING TECHNOLOGY DESIGN You are going to: understand applicability and constraints of (new) technologies explore applicability of (new) technologies on market of existing products explore applicability of (new) technologies on market for new products design for new technologies, modify technology for new design define product and/or technology requirements communicate with researchers, manufacturers and customers
EMERGING TECHNOLOGY DESIGN ORGANISATION OF IDE-ETD TRACK
COURSES Courses (75 EC) IDE courses (obligatory) (25 EC) ETD courses (obligatory) (10 EC) Elective courses (20 EC) Technology oriented courses (20 EC) Master Assignment (45 EC)
COURSES IDE courses (25 EC and minimal 4 courses) Design Histories (5 EC) Scenario Based Product Design (5 EC) Evolutionary Product Development (10 EC) Create the Future (10 EC) Design Management (5 EC) Product Life Cycle (5 EC)
COURSES ETD courses (obligatory) (10 EC) Sources of Innovation (5 EC) Surface Engineering for Look and Feel (5 EC)
ELECTIVE COURSES Technology oriented courses (20 EC) Depends on different technology directions: Biomedical Product Design (BDP) Smart Environments and Virtual Reality (SE & VR) Sustainable Technology for Product Development (STPD) Product and Surfaces (ProSurf) Advanced Materials Engineering (AME) Structural Dynamics, Acoustics and Control (SDAC)
COURSES Elective courses (20 EC) Other IDE courses Other Technology courses More Technology courses within chosen technology direction
PROCEDURE Weet je welke specialisatie je wilt doen: neem direct contact op met de coördinator van deze specialisatie en bespreek je vakkenpakket. Wil je meer algemene informatie over de verschillende specialisaties: neem contact op met de track-coördinator (Van der Meer). Is je vakkenpakket bekend en besproken met de coördinator van de specialisatie: lever je ondertekende pakket elektronisch in bij de trackcoördinator. Gebruik het formulier op de volgende link http://www.utwente.nl/ide/track_registration/
TRACK COORDINATOR Track Coördinator: Prof.dr.ir. Th.H. van der Meer Horstring, room N.228 tel. 053 489 2562 E: t.h.vandermeer@utwente.nl
EMERGING TECHNOLOGY DESIGN TECHNOLOGY DIRECTIONS
BIOMEDICAL PRODUCT DESIGN A NEW TECHNOLOGY FOR THE TREATMENT OF MIGRAINE Emerging Technology: Pulsating ElectroMagnetic Fields (PEMF) It works in the lab, but does it work in daily life??
BIOMEDICAL PRODUCT DESIGN Gross turnover Migraine medication? Migraine prevalence? 2 billion US$/year 30 million patients Company XXX: Let s do it! Design a consumer product which enables home treatment of migraine
BIOMEDICAL PRODUCT DESIGN Technologie: robotica voor ondersteuning van de loopfunctie Opdracht: exoskelet dat lopen vergemakkelijkt
IS IT SCIENCE FICTION? Follow-up: Mindwalker PhD-project
BIOMEDICAL PRODUCT DESIGN Technology oriented courses (20 EC) Biomechanics (5 EC) Biomedical Mat. Eng. 1 (5 EC) Integrative Design of Biomedical Products (5 EC) Technical Support of Human Function (5 EC)
BIOMEDICAL PRODUCT DESIGN Coördinator: Ir. Edsko Hekman Horstring, room W.214 tel. 053 489 3173 E: e.e.g.hekman@utwente.nl
SUSTAINABLE TECHNOLOGY FOR PRODUCT DEVELOPMENT Integration of fuel cells in consumer products Laptop with Direct Methanol Fuel Cell (Casio) Mobile phone with fuel cell and methanol cartridges (Motorola)
SUSTAINABLE TECHNOLOGY FOR PRODUCT DEVELOPMENT Integration of photovoltaic solar cells in products Photovoltaic solar cell Photovoltaic solar cells in roof construction
SUSTAINABLE TECHNOLOGY FOR PRODUCT DEVELOPMENT Hydrogen in consumer products
SUSTAINABLE TECHNOLOGY FOR PRODUCT DEVELOPMENT Example Master assignments: Developing decision model to apply bio-degradable polymers Developing new tools in LCA like projection of impact on Google maps based on locations Predictive models for sustainable energy consumption of consumers Determining design targets for new C2C product range
SUSTAINABLE TECHNOLOGY FOR PRODUCT DEVELOPMENT Technology oriented courses (20 EC) Product Life Cycle Management (5 EC) Product Life Cycle (5 EC) Scenario Based Product Design (5 EC) Governing Product Development (5 EC) Packaging Design and Management 1 (5 EC) Packaging Design and Management 2 (5 EC) Cradle to Cradle Design Paradigm (5 EC) Intellectual property in Product development (5 EC) Lean Six Sigma Green Belt (5 EC)
SUSTAINABLE TECHNOLOGY FOR PRODUCT DEVELOPMENT Coördinator: Ir. Marten Toxopeus Horstring, room N.216 tel. 053 489 4516 E: m.e.toxopeus@utwente.nl
STRUCTURAL DYNAMICS, ACOUSTICS & CONTROL Sound absorption and reflection Speaker Microphones 1 2 Sample
STRUCTURAL DYNAMICS, ACOUSTICS & CONTROL Sound absorption and reflection
STRUCTURAL DYNAMICS, ACOUSTICS & CONTROL Piezoelectric Energy Harvesting UT & Tauw Subsidieproject Energie uit trilling N34 bij Hardenberg Piezoelectrisch materiaal onder asfalt toplaag Bestaande trilling omzetten in nuttige energie
STRUCTURAL DYNAMICS, ACOUSTICS & CONTROL Technology oriented courses (20 EC) Engineering Acoustics (5 EC) Aero-Acoustics (3 EC) Systeem en regeltechniek 1 (5 EC) Design principles for precision mechanisms (5 EC) Dynamica 2 (3 EC) Advanced Dynamics (5 EC) Introduction to FEM (3 EC)
STRUCTURAL DYNAMICS, ACOUSTICS & CONTROL Coördinator: Prof.dr.ir. André de Boer Horstring, room N.134 tel. 053 489 2460 E: a.deboer@utwente.nl
SMART ENVIRONMENTS & VIRTUAL REALITY Multidisciplinary systems design: Ergonomics Electronics Informatics Mechanical engineering Psychology User focus Technology aware http://www.gaudisite.nl/fromfuzzytosmartslides.pdf
SMART ENVIRONMENTS & VIRTUAL REALITY Masterprojects: Parallel Electric Vehicle charging, with respect to grid consequences Serious gaming, e.g. system thinking training and testing Smart interface to product data base Litter-collecting robot
SMART ENVIRONMENTS & VIRTUAL REALITY Virtual Reality and human interface Investigate EV range anxiety and propose methods to deal with it.
SMART ENVIRONMENTS & VIRTUAL REALITY Technology oriented courses (20 EC) Scenario Based Product Design (5 EC) Dynamic Systems (5 EC) Systems Engineering (5 EC) Smart Environments Integration Project (5 EC) Elective courses from a wide variety of subjects
SMART ENVIRONMENTS & VIRTUAL REALITY Coördinator: Dr.ir. Maarten Bonnema Horstring, room N.220 tel. 053 489 2548 E: g.m.bonnema@utwente.nl
PRODUCT AND SURFACES How? Design product surfaces based on a multidisciplinary, scientific approach.
PRODUCT AND SURFACES What? Create added value to products by academic knowledge on the performance of surfaces with respect to: Visual and touch perception Comfort Durability Products and surfaces interaction contact & friction, sensing User perception Comfort & Durability
PRODUCT AND SURFACES To whom? Adapt new surface technology to the consumer market.
Mechanical parameter PRODUCT AND SURFACES Master assignment example Design of a Sliding-Tester: the frictional behavior of the skin during sliding tackles on artificial turf Bio-markers: Skin damage - failure Comfort Thermal parameter
PRODUCT AND SURFACES Technology oriented courses (20 EC) Active & tunable surfaces (5 EC) Durability of consumer products (5 EC) Surfaces for Comfort and Touch (5 EC) Surface Engineering for Look and Feel (5 EC) Knowledge levels associated with the courses of the programme
PRODUCT AND SURFACES Coördinator: Dr.Xiangqiong (Lydia) Zeng Horstring, room N.104 tel. 053 489 4390 E: x.zeng@utwente.nl
ADVANCED MATERIALS ENGINEERING Self-healing materials Research the challenges and opportunities of self-healing plastics Why and in what products should we strive to implement self-healing plastics in the future? Investigate the (future) areas of use Design a self-healing product Make a self-healing product
ADVANCED MATERIALS ENGINEERING Ink jet printed electronics Research the challenges and opportunities of inkjet printed electronics in textiles or textile composites Inkjet printed strain gauge Investigate the (future) areas of use Investigate the possibilities and limitations of the technology Design and make a smart textile (composite) product with ink jet printed electronics
ADVANCED MATERIALS ENGINEERING Design & production with composite materials Light weight electric golf caddy
ADVANCED MATERIALS ENGINEERING Design & Production with composite materials Wings on the Yitzhak Rabin Center
ADVANCED MATERIALS ENGINEERING Technology oriented courses (20 EC) Composites (5 EC) Surface Technology (5 EC) Design, Production & Materials (5 EC) Elastomer Technology (5 EC) Rheology and Processing of Thermoplastics (5 EC) Durability of Consumer Products (5 EC)...
ADVANCED MATERIALS ENGINEERING Coördinator: Prof.dr.ir. Remko Akkerman Horstring, room N.138 tel. 053 489 2566 E: r.akkerman@utwente.nl