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06 APRIL 2014

State of Design: How Design Education Must Change

"But design faces an uncertain future. The traditional design fields create artifacts. But new societal challenges, cultural values, and technological opportunities require new skills. Design today is more human–centered and more social, more rooted in technology and science than ever before. Moreover, there is need for services and processes that do not require the great craft skills that are the primary outcome of a design education.

Although design can sometimes bring creative insight to new problems, this ability is more of an art than a science, limited to a few especially talented individuals and design firms. In order to expand beyond chance successes, design needs better tools and methods, more theory, more analytical techniques, and more understanding of how art and science, technology and people, theory and practice can commingle effectively and productively. ...

Design is still mainly taught as a craft. There are remarkably few fundamental principles, almost no science. If design is to live up to its promise it must create new, enduring curricula for design education that merge science and technology, art and business, and indeed, all the knowledge of the university. Design is an all–encompassing field that integrates together business and engineering, the social sciences and the arts. We see a tremendous opportunity for students that learn design in this integrated way. ...

For design to succeed, grow, achieve its potential, and train future leaders, we envision a new curriculum. In our vision, these new programs combine learning the art and craft of beautiful, pleasurable well–crafted design with substantive courses in the social and biological sciences, in technology, mathematics and statistics, and in the understanding of experimental methods and rigorous reasoning. Programming and mechatronics are essential skills in today's product world. Not only will this training make for better practitioners, but it will also equip future generations of designers to be better at developing the hard, rigorous theory design requires.

Design is an exciting powerful field, filled with promise. To meet the challenges of the 21st century, design and design education must change. So too must universities."

(Don Norman and Scott Klemmer, 25 March 2014)

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TAGS

2014 • analytical techniques • analytical thinkingart and design education • behavioural sciences • call to actioncomplex phenomenacraft and materialscraft skills • creative insight • creative leaders • deductive reasoning • design academics • design and visual culturedesign artefactsdesign craftdesign curriculadesign curriculumdesign educationdesign education must changedesign facultydesign methodsdesign pedagogydesign studio educationdesign theory • design theory and practice • design thinkingdisciplinary specialisationDonald Normanexperimental methodsexperimental type design • finding and solving problems • formal design methodsfundamental principlesinductive reasoningintegrative practicesinterdisciplinary knowledge • LinkedIn Influencers (series) • material practicesmateriality of artefacts • mechatronics • people and society • people and technology • practical theory • practice and theorypractitioner wisdomquestioning traditionsScott Klemmersynthetic thinkingsystematic approachsystems thinking • technology and people • technology designtheory and practicetheory of designthinking toolsuncertain future • well-crafted design

CONTRIBUTOR

Linda Carroli
16 JULY 2011

How and When Prototyping Practices Affect Design Performance

"How does the structure of prototyping practice affect learning, motivation, and performance? In this talk, I will describe research on iteration and comparison, two key principles for discovering contextual design variables and their interrelationships. We found that, even under tight time constraints when the common intuition is to stop iterating and start refining, iterative prototyping helps designers learn. Our results also demonstrate that creating and receiving feedback on multiple prototypes in parallel – as opposed to serially – leads to more divergent concepts, more explicit comparison, less investment in a single concept, and better overall design performance. This talk highlights relevant research in cognitive and social psychology and shares the results of our preliminary design studies."

(Steven Dow, 19 November 2009, Google Tech Talk)

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TAGS

applied researchcognitive psychology • common intuition • conceptualisation • contextual design • creative problem solvingd.school • Dan Schwartz • design performance • design studiesdesign thinkingdesignersdivergent conceptseggenquiryexperimentation • functional fixedness • Georgia Institute of Technology • GoogleTechTalk • HCIhuman-centred computinghuman-computer interactionhypothesisindustrial engineeringintuitioniteration • iteration and feedback • iterative designiterative prototyping • Karl Duncker • learning • parallel prototyping • problem solving researchproblem-solvingprototyping • prototyping practices • psychologyreal-world design • refinement • Scott Klemmerserial prototypingsocial psychologyStanford University • Steven Dow • theory buildingUniversity of Iowa

CONTRIBUTOR

Simon Perkins
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