Designing Spaces for Networked Innovation

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Address to the Swedish Incubator and Sciences Parks Network, 10 Nov 2008


<ul><li> 1. Science In Place Designing Spaces for Open, Networked Innovation Dr. Anthony M. Townsend Research Director Institute for the Future Address to Swedish Incubators and Science Parks (SiSP) Annual Meeting Ideon Science Park, Lund, Sweden November 10, 2008</li></ul> <p> 2. Science Parks: A Successful Model Stanford Industrial Park under construction in 1960 Sophia Antipolis today Research Triangle Park, North Carolina 3. Responding to Structural Change: Incubators Source: World Bank infoDev program 4. The Next Decade and Beyond:Disruptive Forces Open science Ubiquitous computing The rise of biology Changing intellectual property regimes Emerging economies moving up value chain Transdisciplinarity New financial instruments Offshore R&amp;D 5. FORECASTING AT THEINSTITUTE FOR THE FUTURE 6. Institute for the Future </p> <ul><li>Independent research organization, based in Silicon Valley</li></ul> <ul><li>Founded in 1968 by: </li></ul> <ul><li><ul><li>Olaf Helmer, inventor of Delphi method </li></ul></li></ul> <ul><li><ul><li>Paul Baran, packet switching </li></ul></li></ul> <ul><li><ul><li>Jacques Vallee, first conferencing system on ARPANET</li></ul></li></ul> <ul><li>Celebrating 40 years! </li></ul> <p> 7. Institute for the Future: Core Research Programs 10 Year Forecast Technology Horizons Health Horizons 8. Methodology </p> <ul><li>Expert workshops </li></ul> <ul><li>Ethnography/immersion </li></ul> <ul><li>Artifacts from the future </li></ul> <ul><li>Doing it </li></ul> <p> 9. Forecast Horizon: From 5-50 Years 10. Look Back Twice as Far As You Look Forward 11. SCIENCE AND TECHNOLOGY PARKS: THE NEXT DECADE AND BEYOND 12. 13. External Forces Shaping the Future for Science Parks and Incubators </p> <ul><li>The century of biology </li></ul> <ul><li>Lightweight innovation </li></ul> <ul><li>R&amp;D goes global </li></ul> <ul><li>Science returns to the City </li></ul> <p> 14. The Century of Biology From the science of energy and matter to the science of life 15. 16. 17. 18. LIGHTWEIGHT INNOVATION FROM CLOSED LABS TO OPEN NETWORKS 19. Lightweight Innovation: New science communities 20. The Innovation Crisis 21. LIGHTWEIGHT INNOVATION: From Closed to Networked R&amp;D </p> <ul><li>From </li></ul> <ul><li>Internal </li></ul> <ul><li>Centralized </li></ul> <ul><li>Corporate Labs </li></ul> <ul><li>To </li></ul> <ul><li>Venture funds &amp; start-ups </li></ul> <ul><li>Knowledge spot markets </li></ul> <ul><li>Contract labs </li></ul> <ul><li>IP shops </li></ul> <ul><li>Consumer co-creation </li></ul> <ul><li>&amp; more </li></ul> <p> 22. Open Innovation Leaders: P&amp;G 23. Lightweight Innovation: democratized and distributed </p> <ul><li>Democratized forms </li></ul> <ul><li>Amateur renaissance </li></ul> <ul><li>DIY movement - open source for hardware </li></ul> <ul><li>Distributed tools </li></ul> <ul><li>Cloud supercomputing </li></ul> <ul><li>Desktop fabrication </li></ul> <ul><li>Backyard biology </li></ul> <p> 24. R&amp;D GOES GLOBAL FROM SCIENCE POWERS TO SCIENCE STARS 25. R&amp;D Goes Global Rise of China and India </p> <ul><li> A 2006 survey of 186 of the world's biggest corporations found that77% of new R&amp;D centers over the next three yearswill go up in one of these two emerging economic superpowers. </li></ul> <ul><li>BusinessWeek 10 May 2006 </li></ul> <p> 26. R&amp;D Goes Global What Attracts Global Companies to China? </p> <ul><li>Localizing R&amp;D (47%) </li></ul> <ul><li><ul><li>Close to emerging markets </li></ul></li></ul> <ul><li><ul><li>Close to manufacturing </li></ul></li></ul> <ul><li>Lower costs (36%) </li></ul> <ul><li>Positioning for Future Innovation </li></ul> <ul><li><ul><li>From brain drain to brain circulation </li></ul></li></ul> <p> 27. growth of new scientific powers Valencia Science Center, Spain Hong Kong Science Center 28. R&amp;D Goes Global: Specialization at Snowpolis 29. SCIENCE RETURNS TO THE CITY 30. SCIENCE RETURNS TO THE CITY: Driving Forces </p> <ul><li>Better access to creative class talent </li></ul> <ul><li>New real estate development models </li></ul> <ul><li>Mixing and adjacencies to for partnerships and innovation </li></ul> <ul><li>Biomedical is clinical </li></ul> <p> 31. SCIENCE RETURNS TO THE CITY: New places for R&amp;DBiopolis |JTC University Park @ MIT |Forest City Genentech Hall |UCSF East River Science Park |Alexandria 32. Science Returns to the City: Smart Environments for Social Collaboration 33. FROM INCUBAT ORSTO INCUBAT ION 34. 35. Future Spaces: Betaworks 36. Future Signals: Kitchen Budapest 37. Future Spaces: La Cantine 38. Future Signals: Phase Z.Ro 39. Future Spaces: MITsStata Center 40. Lessons From Future Spaces </p> <ul><li>Need for rapid prototyping </li></ul> <ul><li>Places for experimentation </li></ul> <ul><li>Blurring boundaries between business and non-business functions </li></ul> <ul><li><ul><li>Mix uses not just on site, but in labs </li></ul></li></ul> <ul><li>Temporary isnt bad </li></ul> <ul><li>Rethink universities and university partnerships </li></ul> <p> 41. SCIENCE IN PLACE New Research program of the institute for the future 42. NEW IFTF RESEARCH PROGRAM in 2009 Science In Place:Designing Spaces for Networked Innovation 43. Future of Science Parks Map 44. What Does This Mean for Science Parks and Incubators in Sweden? </p> <ul><li>Some questions to consider: </li></ul> <ul><li>How are you positioned relative to long-term growth opportunities? </li></ul> <ul><li>How do you provide a space for online, virtual and temporary communities? </li></ul> <ul><li>What is unique about your local business environment or talent cluster that cant be re-created elsewhere? </li></ul> <ul><li>How can you extend your model to the broader incuba tion process? </li></ul>


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