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Stimulating and Supporting (Sustained) Collaborations NSF Workshop on Effective Engagement and Collaboration of US CISE - China Researchers Peter Arzberger 24 May 2011
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Perspective NSF – CISE – BIO – MPS Outside of NSF – PRAGMA – PRIME – GLEON – Exchange Student
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How to Build Sustainable and Expandable Collaborations? Key research areas Mechanisms Approaches Resources (funding) In an international context!
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“The Government should accept new responsibilities for promoting the flow of new scientific knowledge and the development of scientific talent in our youth. These responsibilities are the proper concern of the Government, for they vitally affect our health, our jobs, and our national security.” "to promote the progress of science; to advance the national health, prosperity, and welfare; to secure the national defense…" National Science Foundation Where Discovery Begins
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Trends Affecting Science and Society Data: Increasing amounts, complexity, distribution of sources Information Technology: Pervasiveness in science and society; Changing business and social models Education: Declining enrollments in computer science; Lack of computational thinking Societal Impact: Increasing demands to address global society problems Global Science: Distribution of science changing, more distributed
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NSF Organization Multi-disciplinary Directorate for Biological Sciences Directorate for Computer and Information Science and Engineering Directorate for Education and Human Resources Directorate for Engineering Directorate for Geosciences Directorate for Mathematical and Physical Sciences Directorate for Social, Behavioral And Economic Sciences Office of the Director OPP OISE OCI OIA NSB
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CISE Mission Exploring the frontiers of computing CCF Computing and Communications Foundations CNS Computer and Network Systems IIS Information and Intelligent Systems Office of the Assistant Director for CISE Software and Hardware Foundations Communication and Information Foundations Algorithmic Foundations Computer Systems Research Robust Intelligence Information Integration and Informatics Human-Centered Computing CORE PROGRAMS Networking Technology and Systems Education and Workforce ~ 70-75% of CISE Budget in Core Programs
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NSF-Wide Activities in FY12 Depend on CISE Research Science, Engineering, and Education for Sustainability –Generating discoveries and building capacity to achieve an environmentally and economically sustainable future CI Framework for the 21st Century –Developing and deploying cyberinfrastructure for 21 st century science and society Scientific Software Elements: Small groups, individuals Scientific Software Integration: Research Communities Scientific Software Innovation Institutes: Large Multidisciplinary Groups Multi-year SI2
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CISE Activities in FY12 Driving Economic Growth, Benefiting Society Smart Health and Wellbeing –Improving health care knowledge, delivery, and quality of life through IT –Howard Wactlar, involves SBE, ENG Cyberphysical Systems (CPS) –Integrating computational intelligence and physical systems that develop capabilities critical to U.S. security, healthcare, transportation, and advanced manufacturing –Keith Marzullo; involves ENG
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CISE and IT Innovation in FY12 Exploring the frontiers of computing Cybersecurity Research –Developing the science of cybersecurity and the market-based incentives –Keith Marzullo; involves OCI and SBE Science and Engineering Beyond Moore’s Law –Exploring and creating new paradigms for computing, new applications in advanced manufacturing –Susanne Hambrusch; involves MPS, ENG, OCI National Robotics Initiative –Developing next generation co-robots working alongside humans for manufacturing, healthcare, learning and security –Howard Wactlar; involves ENG and other agencies Enhancing Access to Radio Spectrum –Using spectrum, a limited resource, more efficiently –Keith Marzullo, involves MPS, ENG, SBE
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Creating the Next Generation Computing Education for the 21 st Century (CE21) –Transforming K-14 education to create a next generation of students engaged and prepared to major in computing and computationally- intensive disciplines –Keith Marzullo, involves EHR and OCI Cyberlearning: Transforming Education (CTE) –Designing and using technologies to aid and understand learning –Howard Wactlar, involves HER, SBE, OCI Data source: HERI; Figure: NCWIT % Freshman Interested In CS
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CISE Mission Exploring the frontiers of computing CCF Computing and Communications Foundations CNS Computer and Network Systems IIS Information and Intelligent Systems Office of the Assistant Director for CISE Software and Hardware Foundations Communication and Information Foundations Algorithmic Foundations Computer Systems Research Robust Intelligence Information Integration and Informatics Human-Centered Computing CORE PROGRAMS Networking Technology and Systems Education and Workforce ~ 70-75% of CISE Budget in Core Programs
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Why collaborate internationally? Problems inherently international –Environment, Health, … Access to unique resources and expertise –People, Testbeds, Local Phenomena Knowledge, Networks and Nations: Global scientific collaborations in the 21 st Century (Royal Society) –Primary Driver: Access to scientists –National Driver: Enhance quality of domestic science, absorb expertise and ideas, share risks, pool resources
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Value Proposition for International Collaboration (Proposed) Return on investment is bigger than or equal to the amount of investment Some values of international collaboration –Accelerates progress by working with people, ideas, infrastructure –Creates better outcomes (more efficient, more robust) –Affects a broader impact (reaches more people, more enduring) –Adds critical expertise to project –Provides unique training and research experiences for students –Provides access to and sharing of unique resources
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International Collaboration & OISE Cofunding* True intellectual collaboration with foreign research partner (Foreign partner's 2-pg biosketch & communication outlining project role must be included. If foreign institution will provide resources, also include an endorsement letter from the foreign institution.) New international collaborations, as opposed to well- established ones; Clear benefit to U.S. science/engineering community from expertise, facilities, or resources of the foreign collaborator; and Active research engagement of U.S. students and junior researchers at the foreign site. * OISE Web Site
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Requirements in Collaborations All participants benefit All collaborators have the resources to collaborate Understand the motivation to collaborate
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What’s Up With Culture? Culture matters –Disagreement with an idea is not disagreement with a person Expectations may be different –Sharing data –Developing software –Joint publications Expectations on “collaborating” may be different On-Line Cultural Training Resource for Study Abroad –http://www2.pacific.edu/sis/culture/
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Research Coordination Network Builds communities through –Opportunity to map out new research directions –Mechanism to grow participants –Long-term funding (5 years) Almost all fields funded by NSF Good model: Global Lake Ecological Observatory Network –International, strong student leadership, new science Mechanism used in SEES activities –And could be used in many other areas (e.g. CPS) Component of Dimensions of Biodiversity –NSFC a partner
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NSF Collaboration-Mechanism Spectrum Instilling International Collaboration Creating Connections Building Collaborations Funding Burgeoning Research Collaborations EAPSI IRES REU PIRE Workshops ASI CNIC RCN PIRE CNIC EAGER Unsolicited Core International Collaboration is a responsibility of the Directorate Investments in international need to be strategic OISE is a partner to build bridges with funding partners
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Why China? Rate of growth of investments in research Increasing emphasis in IT China has already overtaken the UK as the second leading producer of research publications A great nation – need to be part of solution to larger issues Many other reasons
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Challenges Sustaining Collaborations –What are the mechanisms? (Virtual) International Centers –What would these be able to do? How would they be “organized” and funded? –Some examples in the Nordic countries Multilaterial agreements IP
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Challenges to Workshop Participants What are strategic areas for investment? International activities and collaboration should be embedded in national science and innovation strategies so that the domestic science base is best placed to benefit from the intellectual and financial leverage of international partnerships. (Royal Society) What is the value (added) for collaborating internationally? What is the value proposition? Why China? What are the challenges (including cultural)? What mechanisms can be used to stimulate and sustain collaborations? (think outside of the box, e.g. “Center”) What are next steps?
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Success and Beyond Greater number of joint (bi-lateral, multi-lateral) activities Interest in being program officer or division director 谢谢
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