The document summarizes Jim Spohrer's presentation on "City Ecosystems of the 21st Century" given at the Stanford Global Innovation Ecosystem Summit. The presentation discusses how cities are becoming the defining artifacts of civilization and will house over 75% of the world's population by 2050. It outlines various elements that comprise city ecosystems, including infrastructure/environment, individuals/skills, institutions/jobs, and information/quality of life. The presentation also proposes that universities will play a key role in connecting information flows between city ecosystems and accelerating regional innovation through multi-disciplinary research centers.

1. City Ecosystems of the 21st Century Jim Spohrer IBM University Programs Worldwide For Stanford Global Innovation Ecosystem Summit July 11, 2011, San Jose, CA [email_address]

5. Urban-Age.Net Currently, the world’s top 30 cities generate 80% of the world’s wealth. The Urban Age For the first time in history more than 50% the earth’s population live in cities - by 2050 it will be 75% The Endless City

6. Overview: Elements of Interest Policies & Investments Run-Transform-Innovate Governance Frameworks Theories Models Infrastructure & Environment (Technologies Deployed) Individuals & Certified Competences (Skills) Institutions & Roles (Jobs) Information, Quality-of-Life & Demographics (Careers) Infrastructure (Technologies Deployed) Individuals & Certified Competences (Skills) Institutions & Roles (Jobs) Information, Quality-of-Life Demographics (Careers) Infrastructure (Technologies Deployed) Individuals & Certified Competences (Skills) Institutions & Roles (Jobs) Information, Quality-of-Life Demographics (Careers) Infrastructure (Technologies Deployed) Individuals & Certified Competences (Skills) Institutions & Roles (Jobs) Information, Quality-of-Life Demographics (Careers) Infrastructure (Technologies Deployed) Individuals & Certified Competences (Skills) Institutions & Roles (Jobs) Information, Quality-of-Life Demographics (Careers) Infrastructure (Technologies Deployed) Individuals & Certified Competences (Skills) Institutions & Roles (Jobs) Information, Quality-of-Life Demographics (Careers) Infrastructure (Technologies Deployed) Individuals & Certified Competences (Skills) Institutions & Roles (Jobs) Information, Quality-of-Life Demographics (Careers) City Ecosystem 1 City Ecosystem 2 Future Present History Policies & Investments Run-Transform-Innovate Governance Policies & Investments Run-Transform-Innovate Governance Policies & Investments Run-Transform-Innovate Governance Policies & Investments Run-Transform-Innovate Governance

7. CityOne Game to Learn “CityInvesting” Serious Game to teach problem solving for real issues in key industries, helping companies to learn how to work smarter. Energy, Water, Banking, Retail http://www.ibm.com/cityone

9. Data: And therefore, why higher education matters (to nations) % WW GDP and % WW Top-500-Universities Strong Correlation (2009 Data): National GDP and University Rankings http://www.upload-it.fr/files/1513639149/graph.html

11. Accelerating Regional Innovation: Universities as “Living Labs” for Host Cities UNIVERSITIES: Research Centers & Real-World Systems CITIES/METRO REGIONS: Universities Key to Long-Term Economic Development

12. Edu-Impact.Com: Growing Importance of Universities with Large, Growing Endowments “ When we combined the impact of Harvard’s direct spending on payroll, purchasing and construction – the indirect impact of University spending – and the direct and indirect impact of off-campus spending by Harvard students – we can estimate that Harvard directly and indirectly accounted for nearly $4.8 billion in economic activity in the Boston area in fiscal year 2008, and more than 44,000 jobs.”

16. Systems-Disciplines Matrix: Scope of Service Science disciplines systems Systems that focus on flows of things Systems that govern Systems that support people’s activities transportation & supply chain water & waste food & products energy & electricity building & construction healthcare & family retail & hospitality banking & finance ICT & cloud education &work city secure state scale nation laws social sciences behavioral sciences management sciences political sciences learning sciences cognitive sciences system sciences information sciences organization sciences decision sciences run professions transform professions innovate professions e.g., econ & law e.g., marketing e.g., operations e.g., public policy e.g., game theory and strategy e.g., psychology e.g., industrial eng. e.g., computer sci e.g., knowledge mgmt e.g., stats & design e.g., knowledge worker e.g., consultant e.g., entrepreneur stakeholders Customer Provider Authority Competitors resources People Technology Information Organizations change History (Data Analytics) Future (Roadmap) value Run Transform (Copy) Innovate (Invent) Starting Point 1: Observing the Stakeholders (As-Is) Starting Point 2: Observing their Resources & Access (As-Is) Change Potential: Thinking (Has-Been & Might-Become) Value Realization: Doing (To-Be)

17. The Goal: Adaptive Innovators, so called T-shaped professionals Ready for Life-Long-Learning Ready for T-eamwork Ready to build a Smarter Planet SSME+D = Service Science, Management, Engineering + Design Many disciplines (understanding & communications ) Many systems (understanding & communications) Deep in one discipline (analytic thinking & problem solving) Deep in one system (analytic thinking & problem solving) Many multi-cultural-team service projects completed (resume: outcomes, accomplishments & awards) BREADTH DEPTH

18. Data: Why and how technology is changing jobs Levy, F, & Murnane, R. J. (2004). The New Division of Labor: How Computers Are Creating the Next Job Market. Princeton University Press. Why: Technology replaces many routine human activities (provider economics) Expert Thinking Complex Communication Routine Manual Non-routine Manual Routine Cognitive

20. Smarter = Sustainable Innovation (reduce waste, expand capabilities) Computational System Building Smarter Technologies Requires investment roadmap Service Systems: Stakeholders & Resources 1. People/ Individuals 2. Technology & Environment/ Infrastructure 3. Shared Information 4. Organizations/ Institutions connected by win-win value propositions Building Smarter Universities & Cities Requires investment roadmap

22. Time ECOLOGY 14B Big Bang (Natural World) 10K Cities (Human-Made World) sun (energy) writing (symbols and scribes, stored memory and knowledge) earth (molecules & stored energy) written laws (governance and stored control) bacteria (single-cell life) sponges (multi-cell life) money (governed transportable value stored value, “ economic energy”) universities (knowledge workers) clams (neurons) trilobites (brains) printing press (books) steam engine (work) Where is the “Real Science” - mysteries to explain? In the many sciences that study the natural and human-made worlds… Unraveling the mystery of evolving hierarchical-complexity in new populations… To discover the world’s architectures and mechanisms for computing non-zero-sum Entity Architectures (Є N ) of nested, networked Holistic-Product-Service-Systems (HPSS) 200M bees (social division-of-labor) 60 transistor (routine cognitive work)

29. What is service science? A service system? The ABC’s? Economics & Law Design/ Cognitive Science Systems Engineering Operations Computer Science/ Artificial Intelligence Marketing “ a service system is a human-made system to improve provider-customer interactions and value-cocreation outcomes, studied by many disciplines, one piece at a time.” “ service science is the transdisciplinary study of service systems & value-cocreation” The ABC’s: The provider (A) and a customer (B) transform a target (C)

36. Service system entities learn to systematically exploit technology: Technology can perform routine manual, cognitive, transactional work March, J.G. (1991) Exploration and exploitation in organizational learning. Organizational Science. 2(1).71-87. Sanford, L.S. (2006) Let go to grow: Escaping the commodity trap. Prentice Hall. New York, NY. L Learning Systems (“Choice & Change”) Exploitation (James March) Exploration (James March) Run/Practice-Reduce (IBM) Transform/Follow (IBM) Innovate/Lead (IBM) Operations Costs Maintenance Costs Incidence Planning & Response Costs (Insure) Incremental Radical Super-Radical Internal External Interactions “ To be the best, learn from the rest” “ Double monetize, internal win and ‘sell’ to external” “ Try to operate inside the comfort zone”

38. Summary Spohrer, J & Maglio, P. P. (2009) Service Science: Toward a Smarter Planet. In Introduction to Service Engineering. Editors Karwowski & Salvendy. Wiley. Hoboken, NJ. . 5. Exploit information & technology 6. Physical-Symbol Systems Physical Not-Physical Rights No-Rights 2. Technology/ Environmental Infrastructure 4. Shared Information 1. People/ Individuals 3. Organizations/ Institutions 1. Dynamically configure resources (4 I’s) Model of competitor: Does it put us ahead? Will we? Strategic Sustainable Innovation 4.Competitor/ Substitutes Model of authority: Is it legal? May we? Regulated Compliance 3.Authority Model of self: Does it play to our strengths? Can we? Cost Plus Productivity 2.Provider Model of customer: Do customers want it? Should we? Value Based Quality 1.Customer Reasoning Questions Pricing Measure Impacted Stakeholder Perspective 2. Value from stakeholder perspectives S A P C 3. Reconfigure access rights 4. Ten types of outcomes (ISPAR)

43. Data: Why education certification levels matter (to individuals) … But it can be costly, American student loan debt is over $900M

44. Data: Why the study of service systems matters (to nations) Parallels the growth of cities and the digital knowledge economy High Talent Individuals High Tech Infrastructure 42% 64 33 3 1.4 Germany 37% 26 11 63 2.1 Bangladesh 19% 20 10 70 1.6 Nigeria 45% 67 28 5 2.2 Japan 64% 69 21 10 2.4 Russia 61% 66 14 20 3.0 Brazil 34% 39 16 45 3.5 Indonesia 23% 76 23 1 5.1 U.S. 35% 23 17 60 14.4 India 142% 29 22 49 25.7 China 40yr Service Growth S % G % A % Labor % WW Nation World’s Large Labor Forces A = Agriculture, G = Goods, S = Service 2010 2010 CIA Handbook, International Labor Organization Note: Pakistan, Vietnam, and Mexico now larger LF than Germany US shift to service jobs (A) Agriculture: Value from harvesting nature (G) Goods: Value from making products (S) Service: Value from IT augmented workers in smarter systems that create benefits for customers and sustainably improve quality of life.

45. Data: Why the study of service systems matters (to businesses) SOFTWARE SYSTEMS (AND FINANCING) SERVICES 2010 Pretax Income Mix Revenue Growth by Segment Services Software Systems 44% 17% 39% IBM Annual Reports

46. Stakeholder Priorities Education Research Business Government Service Systems Customer-provider interactions that enable value cocreation Dynamic configurations of resources: people, technologies, organisations and information Increasing scale, complexity and connectedness of service systems B2B, B2C, C2C, B2G, G2C, G2G service networks Service Science To discover the underlying principles of complex service systems Systematically create, scale and improve systems Foundations laid by existing disciplines Progress in academic studies and practical tools Gaps in knowledge and skills Develop programmes & qualifications Service Innovation Growth in service GDP and jobs Service quality & productivity Environmental friendly & sustainable Urbanisation & aging population Globalisation & technology drivers Opportunities for businesses, governments and individuals Skills & Mindset Knowledge & Tools Employment & Collaboration Policies & Investment Develop and improve service innovation roadmaps, leading to a doubling of investment in service education and research by 2015 Encourage an interdisciplinary approach The white paper offers a starting point to - The Birth of Service Science: A Framework for Progress ( http://www.ifm.eng.cam.ac.uk/ssme/ ) Source: Workshop and Global Survey of Service Research Leaders (IfM & IBM 2008) Glossary of definitions, history and outlook of service research, global trends, and ongoing debate 1. Emerging demand 2. Define the domain 3. Vision and gaps 4. Bridge the gaps 5. Call for actions

47. Stakeholder Priorities Education Research Business Government Service Systems Customer-provider interactions that enable value cocreation Dynamic configurations of resources: people, technologies, organisations and information Increasing scale, complexity and connectedness of service systems B2B, B2C, C2C, B2G, G2C, G2G service networks Service Science To discover the underlying principles of complex service systems Systematically create, scale and improve systems Foundations laid by existing disciplines Progress in academic studies and practical tools Gaps in knowledge and skills Develop programmes & qualifications Service Innovation Growth in service GDP and jobs Service quality & productivity Environmental friendly & sustainable Urbanisation & aging population Globalisation & technology drivers Opportunities for businesses, governments and individuals Skills & Mindset Knowledge & Tools Employment & Collaboration Policies & Investment Develop and improve service innovation roadmaps, leading to a doubling of investment in service education and research by 2015 Encourage an interdisciplinary approach The white paper offers a starting point to - The Birth of Service Science: IBM Centennial Icon of Progress ( http://www.ifm.eng.cam.ac.uk/ssme/ ) Source: Workshop and Global Survey of Service Research Leaders (IfM & IBM 2008) Glossary of definitions, history and outlook of service research, global trends, and ongoing debate 1. Emerging demand 2. Define the domain 3. Vision and gaps 4. Bridge the gaps 5. Call for actions

48. What about advanced manufacturing? http://www.youtube.com/watch?v=nd5WGLWNllA

49. Rethinking “Product-Service Systems” F B Service System Entity Product-Service-System B F SSE B F SSE B F SSE B F SSE B F SSE B F SSE B F SSE B F SSE B F SSE B F SSE B F F F B B Service Business Product Business Front-Stage Marketing/Customer Focus Back-Stage Operations/Provider Focus Based on Levitt, T (1972) Production-line approach to service. HBR. e.g., IBM e.g., Citibank “ Everybody is in service... Something is wrong… The industrial world has changed faster than our taxonomies.”.