NSF Computing Education for the 21st Century

The Computing Education for the 21st Century (CE21) program aims to build a robust computing research community, a computationally competent 21st century workforce, and a computationally empowered citizenry. In this undertaking, there are three interrelated challenges: the significant underproduction of degrees needed for the computing and computing-related workforce, the longstanding underrepresentation of many segments of our population, and the lack of a presence of computing in K-12. Innovation in information technology (IT) has driven economic growth, underlies many of our recent scientific advances, and ensures our national security; it is not surprising then that predicted IT job growth is very strong. Yet students are not majoring in computing in sufficient numbers. This shortfall is exacerbated by the longstanding underrepresentation of women, persons with disabilities, African Americans, Hispanics, Native Americans and indigenous peoples in computing.

Unlike many of the other STEM (science, technology, engineering, and mathematics) disciplines, computing has not developed a robust research base on the teaching and learning of its fundamental concepts and skills. That research base must be built and it must be used in providing all students with rigorous academic curricula that cover computational concepts and skills, and the breadth of application and potential of computing. Providing access to rigorous, academic computing in K-12 will require an unprecedented effort to develop curriculum and materials and to prepare teachers.CE21 thus supports efforts in three tracks:

Computing Education Research (CER) proposals will aim to develop a research base for computing education. Projects may conduct basic research on the teaching and learning of computational competencies; they may design, develop, test, validate, and refine materials, measurement tools, and methods for teaching in specific contexts; and/or they may implement promising small-scale interventions in order to study their efficacy with particular groups. Efforts can focus on computational thinking as taught in computing courses or infused across the curriculum, they can target students or their teachers in informal or formal educational settings, or they can address any level within the K-16 pipeline, from elementary school through high school and college.

CS 10K proposals will aim to develop the knowledge base and partnerships needed to catalyze the CS 10K Project. The CS 10K Project aims to have rigorous, academic curricula incorporated into computing courses in 10,000 high schools, taught by 10,000 well-trained teachers. CS 10K proposals can address a wide range of needed activities, including the development of course materials, pedagogy, and methods courses, as well as professional development and ongoing support for teachers, approaches to scaling, best practices for increasing the participation of students from underrepresented groups, and strategies for building K-12, university, and community partnerships.

Broadening Participation (BP) proposals will aim to develop and assess novel interventions that contribute to our knowledge base on the effective teaching and learning of computing for students from the underrepresented groups: women, persons with disabilities, African Americans, Hispanics, Native Americans and indigenous peoples. Proposed interventions should be designed to engage and retain students from these groups and, at the same time, to increase their knowledge of computational thinking concepts and skills.

Proposers are encouraged to leverage the resources provided by the existing BPC-A Alliances and to develop interventions that, if proven successful, could be implemented within a BPC-A Alliance. For additional information on the Alliances, see http://www.nsf.gov/funding/pgm_summ.jsp?pims_id=503593&org=NSF. In aggregate, CE21 projects will contribute to our understanding of how diverse student populations are engaged and retained in computing, learn its fundamental concepts, and develop computational competencies that position them to contribute to an increasingly computationally empowered workforce.

Amount: $200,000 - $10m

Date due: April 9, 2012

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Smart Health & Well-being (NSF)

Through the Smart Health and Wellbeing (SHB) Program, NSF seeks to address fundamental technical and scientific issues that would support much needed transformation of healthcare from reactive and hospital-centered to preventive, proactive, evidence-based, person-centered and focused on wellbeing rather than disease. The issues to be addressed include, but are not limited to, sensor technology, networking, information and machine learning technology, modeling cognitive processes, system and process modeling, and social and economic issues. Effective technology-based solutions must satisfy a multitude of constraints arising from clinical needs, social interactions, cognitive limitations, barriers to behavioral changes, heterogeneity of data, semantic mismatch and limitations of current cyberphysical systems. The high degree of complexity and broad range of the problems require multidisciplinary teams of scientists and engineers to identify and address barriers limiting quality of life, independence for chronically ill and elder individuals, and other aspects of wellbeing. Fundamental technological advances are also needed to understand the impediments that prevent people from engaging in health-promoting life styles including diet and exercise and from participating in their healthcare decisions.Proposers are invited to submit proposals in two project classes, which are defined as follows:Type I: Exploratory Projects (EXP) - $200,000 to $600,000 total budget with durations from two to three years; andType II: Integrative Projects (INT) - $600,001 to $2,000,000 total budget with durations from four to five yearsA more complete description of the project classes can be found in section II. Program Description, of this document.

Date due: February 21, 2012

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Small Business Innovation Research (SBIR) and Small Business Technology Transfer (STTR)

The Department of Energy announces the Small Business Innovation Research (SBIR) and the Small Business Technology Transfer (STTR) programs for Fiscal Year (FY) 2012 Phase I (Release 2). The objectives of these programs include increasing private sector commercialization of technology developed through Department of Energy supported research and development (R&D), stimulating technological innovation in the private sector, and improving the return on investment from Federally-funded research for economic and social benefits to the nation. DOE will support high-quality research or R&D on advanced concepts concerning important mission-related scientific or engineering problems and opportunities that are likely to lead to significant public benefit from promising research.

Amount: $150,000 (must partner with a small business)

Date due: January 31, 2012

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Scholarly Editions and Translations

The Department of Energy announces the Small Business Innovation Research (SBIR) and the Small Business Technology Transfer (STTR) programs for Fiscal Year (FY) 2012 Phase I (Release 2). The objectives of these programs include increasing private sector commercialization of technology developed through Department of Energy supported research and development (R&D), stimulating technological innovation in the private sector, and improving the return on investment from Federally-funded research for economic and social benefits to the nation. DOE will support high-quality research or R&D on advanced concepts concerning important mission-related scientific or engineering problems and opportunities that are likely to lead to significant public benefit from promising research.

Amount: $150,000 (must partner with a small business)

Date due: January 31, 2012

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Cyberlearning: Transforming Education

Through the Cyberlearning: Transforming Education program, NSF seeks to integrate advances in technology with advances in what is known about how people learn to better understand how people learn with technology and how technology can be used productively to help people learn, through individual use and/or through collaborations mediated by technology;better use technology for collecting, analyzing, sharing, and managing data to shed light on learning, promoting learning, and designing learning environments; anddesign new technologies for these purposes, and advance understanding of how to use those technologies and integrate them into learning environments so that their potential is fulfilled.Of particular interest are technological advances that allow more personalized learning experiences, draw in and promote learning among those in populations not served well by current educational practices, allow access to learning resources anytime and anywhere, and provide new ways of assessing capabilities. It is expected that Cyberlearning research will shed light on how technology can enable new forms of educational practice and that broad implementation of its findings will result in a more actively-engaged and productive citizenry and workforce.Cyberlearning awards will be made in three research categories, each focusing on a different stage of research and development: Exploratory (EXP), Design and Implementation (DIP), and Integration and Deployment (INDP). The Cyberlearning program will also support small Capacity-Building Projects (CAP) and a Cyberlearning Resource Center (CRC).

Amount: $2.5 million

Date due: February 12, 2012

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Partnerships for International Research (PIRE)

Partnerships for International Research and Education (PIRE) is an NSF-wide program that supports international activities across all NSF supported disciplines. The primary goal of PIRE is to support high quality projects in which advances in research and education could not occur without international collaboration. PIRE seeks to catalyze a higher level of international engagement in the U.S. science and engineering community. International partnerships are essential to addressing critical science and engineering problems. In the global context, U.S. researchers and educators must be able to operate effectively in teams with partners from different nations and cultural backgrounds. PIRE promotes excellence in science and engineering through international collaboration and facilitates development of a diverse, globally-engaged, U.S. science and engineering workforce. This PIRE competition will focus exclusively on the NSF-wide investment area of Science, Engineering, and Education for Sustainability (SEES). The SEES effort focuses on interdisciplinary topics that will advance sustainability science, engineering and education as an integrative approach to the challenges of adapting to environmental, social and cultural changes associated with growth and development of human populations, and attaining a sustainable energy future.

Amount: $4 million across 5 years

Date due: Preliminary proposals due October 19, 2011

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Digging into Data (Information Sciences)

The creation of vast quantities of Internet-accessible digital data and the development of techniques for large-scale data analysis have led to remarkable new discoveries in genetics, astronomy, and other fields, and—importantly—connections between different academic disciplines. The Digging into Data Challenge seeks to discover how these new research techniques might also be applied to questions in the humanities and social sciences. New techniques of large-scale data analysis allow researchers to discover relationships, detect discrepancies, and perform computations on so-called “big data” sets that are so large that they can be processed only by using computing resources and computational methods that were developed and made economically affordable within the past few years. This “data deluge” has arisen not just from the capture and storage of data on everyday transactions such as Internet searches, consumer purchases, cell phone records, “smart” metering systems and sensors, but also from the digitization of all types of media, with books, newspapers, journals, films, artworks, and sound recordings being digitized on a massive scale. It is possible to apply data linkage and analysis techniques to large and diverse data collections, including survey data, economic data, digitized newspapers, books, music, and other scholarly and scientific resources. How might these techniques help researchers use these materials to ask new questions about and gain new insights into our world? To encourage innovative approaches to this question, eight international research organizations are organizing a joint grant competition to focus the attention of the social sciences, humanities, library, archival, and information sciences communities on large-scale data analysis and its potential applications. The four goals of the initiative are * to promote the development and deployment of innovative research techniques in large-scale data analysis that focus on applications for the humanities and social sciences; * to foster interdisciplinary collaboration among researchers in the humanities, social sciences, computer sciences, library, archive, information sciences, and other fields, around questions of text and data analysis; * to promote international collaboration among both researchers and funders; and * to ensure efficient access to and sharing of the materials for research by working with data repositories that hold large digital collections.

Amount: $175,000

Date due: June 16, 2011

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