The Department of Computer Science and Engineering and DO-IT IT (Disabilities, Opportunities, Internetworking and Technology) at the University of Washington propose to create the AccessComputing Alliance for the purpose of increasing the participation of people with disabilities in computing careers. Alliance partners Gallaudet University, Microsoft, the NSF Regional Alliances for Persons with Disabilities in STEM (hosted by the University of Southern Maine, New Mexico State University, and UW), and SIGACCESS of the Association for Computing Machinery (ACM) and collaborators represent stakeholders from education, industry, government, and professional organizations nationwide.
Alliance activities apply proven practices to support persons with disabilities within computing programs. To increase the number of students with disabilities who successfully pursue undergraduate and graduate degrees, the alliance will run college transition and bridge, tutoring, internship, and e-mentoring programs. To increase the capacity of postsecondary computing departments to fully include students with disabilities in coursers and programs, the alliance will form communities of practice, run capacity-building institutes, and develop systemic change indicators for computing departments. To create a nationwide resource to help students with disabilities pursue computing careers and computing educators and employers, professional organizations and other stakeholders to develop more inclusive programs and share effective practices, the alliance will create and maintain a searchable AccessComputing Knowledge Base of FAQs, case studies, and effective/promising practices.
These activities will build on existing alliances and resources in a comprehensive, integrated effort. They will create nationwide collaborations among individuals with disabilities, computing professionals, employers, disability providers, and professional organizations to explore the issues that contribute to the underrepresentation of persons with disabilities and to develop, apply and assess interventions. In addition, they will support local and regional efforts to recruit and retain students with disabilities into computing and assist them in institutionalizing and replicating their programs. The alliance will work with other Alliances and organizations that serve women and underrepresented minorities to make their programs accessible to students with disabilities. Finally they will collect and publish research and implementation data to enhance scientific and technological understanding of issues related to the inclusion of people with disabilities in computing.
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TEAM MEMBERS:
Richard LadnerLibby CohenSheryl BurgstahlerWilliam McCarthy
The University of Massachusetts Lowell and Machine Science Inc. propose to develop and to design an on-line learning system that enables schools and community centers to support IT-intensive engineering design programs for students in grades 7 to 12. The Internet Community of Design Engineers (iCODE) incorporates step-by-step design plans for IT-intensive, computer-controlled projects, on-line tools for programming microcontrollers, resources to facilitate on-line mentoring by university students and IT professionals, forums for sharing project ideas and engaging in collaborative troubleshooting, and tools for creating web-based project portfolios. The iCODE system will serve more than 175 students from Boston and Lowell over a three-year period. Each participating student attends 25 weekly after-school sessions, two career events, two design exhibitions/competitions, and a week-long summer camp on a University of Massachusetts campus in Boston or Lowell. Throughout the year, students have opportunities to engage in IT-intensive, hands-on activities, using microcontroller kits that have been developed and classroom-tested by University of Massachusetts-Lowell and Machine Science, Inc. About one-third of the participants stay involved for two years, with a small group returning for all three years. One main component for this project is the Handy Cricket which is a microcontroller kit that can be used for sensing, control, data collection, and automation. Programmed in Logo, the Handy Cricket provides an introduction to microcontroller-based projects, suitable for students in grades 7 to 9. Machine Science offers more advanced kits, where students build electronic circuits from their basic components and then write microcontroller code in the C programming language. Machine Science offers more advanced kits, which challenge students to build electronic circuits from their basic components and then write microcontroller code in the C programming language. Machine Science's kits are intended for students in grades 9 to 12. Microcontroller technology is an unseen but pervasive part of everyday life, integrated into virtually all automobiles, home appliances, and electronic devices. Since microcontroller projects result in physical creations, they provide an engaging context for students to develop design and programming skills. Moreover, these projects foster abilities that are critical for success in IT careers, requiring creativity, analytical thinking, and teamwork-not just basic IT skills.
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TEAM MEMBERS:
Fred MartinDouglas PrimeMichelle Scribner-MacLeanSamuel Christy
The goal of this engineering education project entitled EXTRAORDINARY WOMEN ENGINEERS (EWE) is to encourage more academically prepared high school girls to consider engineering as an attractive option for post-secondary education and subsequent careers in order to increase the number of women who make up the engineering workforce. Specific project objectives are to: 1) mobilize America's more than one million engineers to reach out to educators, school counselors, and high school girls with tested messages tailored to encourage participation in engineering education and careers; 2) help high school counselors and science, math, and technology teachers to better understand the nature of engineering, the academic background needed to pursue engineering, and the career paths available in engineering; 3) equip high school counselors and teachers to share this information with students, especially girls; and 4) reach out to girls directly with messages that accurately reflect the field of engineering and will inspire girls to choose engineering. The WGBH Educational Foundation has partnered with the American Association of Engineering Societies (AAES), American Society of Civil Engineers (ASCE), and a coalition of more than 50 of the country's engineering associations, colleges, and universities to fundamentally shift the way the engineering and educational communities portray engineering. Based on a needs assessment performed in 2004, the EWE coalition embraces a communication strategy that focuses on the societal value and rewards of being an engineer, as opposed to the traditional emphasis on the process and challenges of becoming an engineer. This project represents a nationwide outreach effort that includes training opportunities for engineers; targeted Web-based and print resources for students, school counselors and teachers, and engineers; and a range of outreach and marketing activities.
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TEAM MEMBERS:
Julie BenyoPatrick NataleF. Suzanne Jenniches
This collaborative project aims to establish a national computational resource to move the research community much closer to the realization of the goal of the Tree of Life initiative, namely, to reconstruct the evolutionary history of all organisms. This goal is the computational Grand Challenge of evolutionary biology. Current methods are limited to problems several orders of magnitude smaller, and they fail to provide sufficient accuracy at the high end of their range. The planned resource will be designed as an incubator to promote the development of new ideas for this enormously challenging computational task; it will create a forum for experimentalists, computational biologists, and computer scientists to share data, compare methods, and analyze results, thereby speeding up tool development while also sustaining current biological research projects. The resource will be composed of a large computational platform, a collection of interoperable high-performance software for phylogenetic analysis, and a large database of datasets, both real and simulated, and their analyses; it will be accessible through any Web browser by developers, researchers, and educators. The software, freely available in source form, will be usable on scales varying from laptops to high-performance, Grid-enabled, compute engines such as this project's platform, and will be packaged to be compatible with current popular tools. In order to build this resource, this collaborative project will support research programs in phyloinformatics (databases to store multilevel data with detailed annotations and to support complex, tree-oriented queries), in optimization algorithms, Bayesian inference, and symbolic manipulation for phylogeny reconstruction, and in simulation of branching evolution at the genomic level, all within the context of a virtual collaborative center. Biology, and phylogeny in particular, have been almost completely redefined by modern information technology, both in terms of data acquisition and in terms of analysis. Phylogeneticists have formulated specific models and questions that can now be addressed using recent advances in database technology and optimization algorithms. The time is thus exactly right for a close collaboration of biologists and computer scientists to address the IT issues in phylogenetics, many of which call for novel approaches, due to a combination of combinatorial difficulty and overall scale. The project research team includes computer scientists working in databases, algorithm design, algorithm engineering, and high-performance computing, evolutionary biologists and systematists, bioinformaticians, and biostatisticians, with a history of successful collaboration and a record of fundamental contributions, to provide the required breadth and depth. This project will bring together researchers from many areas and foster new types of collaborations and new styles of research in computational biology; moreover, the interaction of algorithms, databases, modeling, and biology will give new impetus and new directions in each area. It will help create the computational infrastructure that the research community will use over the next decades, as more whole genomes are sequenced and enough data are collected to attempt the inference of the Tree of Life. The project will help evolutionary biologists understand the mechanisms of evolution, the relationships among evolution, structure, and function of biomolecules, and a host of other research problems in biology, eventually leading to major progress in ecology, pharmaceutics, forensics, and security. The project will publicize evolution, genomics, and bioinformatics through informal education programs at museum partners of the collaborating institutions. It also will motivate high-school students and college undergraduates to pursue careers in bioinformatics. The project provides an extraordinary opportunity to train students, both undergraduate and graduate, as well as postdoctoral researchers, in one of the most exciting interdisciplinary areas in science. The collaborating institutions serve a large number of underrepresented groups and are committed to increasing their participation in research.
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TEAM MEMBERS:
Tandy WarnowDavid HillisLauren MeyersDaniel MirankerWarren Hunt, Jr.
Partnering with National Musical Arts, the Science Museum of Minnesota seeks to develop BioMusic, a 4,000 sq. ft. traveling exhibition that explores the origins of music in nature and the connections between music and sound of living things. This project is based on planning grant ESI-0211611 (The Music of Nature and the Nature of Music) awarded to NMA. The project is based on the emerging interdisciplinary research field of biomusic, which includes musicology plus aspects of neuroscience, biology, zoology, environmental science, physics, psychology, math and anthropology. The exhibit sections -- "Humanimal" Music; Natural Symphonies; Ancient Roots; Music, Body and Mind; and World of Music -- use both music and natural sound to explore biodiversity, cultural diversity, the physics of sound and the brain. BROADER IMPACT: The exhibition is expected to travel for at least six years, reaching some two million people in 18 communities. It is to be accompanied by a six-part radio series (Sweet Bird Classics) for young children. Because of the connection to music and many other areas of public interest, this exhibition has the potential to attract and engage new audiences to science museums and stimulate their interest in STEM.
WNET is producing "The Human Spark," a multimedia project that includes a four-part television series (4 x 60 min) for national primetime broadcast on PBS, innovative outreach partnerships with museums, an extensive Web site and outreach activities, including a Spanish-language version and companion book. Hosted by Alan Alda, "The Human Spark" will explore the intriguing questions: What makes us human? Can the human spark be found in the differences between us and our closest genetic relative -- the great apes? Is there some place or process unique to the human brain where the human spark resides? And if we can identify it, could we transfer it to machines? The programs will explore these questions through presenting cutting-edge research in a number of scientific disciplines including evolution, genetics, cognitive neuroscience, behavioral science, anthropology, linguistics, AI, robotics and computing. The series will highlight opposing views within each field, and the interdisciplinary nature of science, including its intersection with the humanities. The series will develop a new innovative format, the "muse concept", which involves pairing the host with a different scientific expert throughout each program. The outreach plan is being developed with a consortium of four leading science museums, American Museum of Natural History in New York, Museum of Science in Boston, The Exploratorium in San Francisco, and the Fort Worth Museum of Science and History, paired with their respective local public television stations. An additional six museums and local broadcasters will be chosen through an RFP process to develop local initiatives around the series. Multimedia Research and Leflein Associates will conduct formative as well as summative evaluations of the series and web.
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TEAM MEMBERS:
William GrantJared LipworthGraham CheddBarbara Flagg
SoundVision Productions is developing and distributing a series of ten, hour-long public radio documentaries that will explore the turbulent boundary between science and the humanities, capturing the present moment of tremendous scientific and scholarly ferment with the unique and intimate power of radio. By introducing the radio audience to the thoughts and voices of some of the world\'s most accomplished scientists, in conversations with the counterparts in the humanities, the series will look at recent developments in science including physics, molecular and cell biology, environmental science, cognitive psychology and neuroscience, and the multiple disciplines of the life sciences reflecting the increasingly subtle and widespread application of evolutionary theory. In each program, a careful account of new scientific ideas and discoveries will be placed within the context of historical and contemporary thought about the human and natural worlds. Barinetta Scott, the Executive Producer, has most recently been the Executive Producer for the highly regarded NSF funded NPR series, "The DNA Files." In developing this project, she will work closely with an advisory committee that includes: John Avise, Research Professor, Dept. of Genetics, University of Georgia Samuel Barondes, Professor and Director of the University of California San Francisco\'s Center for Neurobiology and Psychiatry Terrence Deacon, Associate Professor of Anthropology, Boston University Anne Foerst, Professor of Computer Science and Theology, St. Bonaventure University Ursula Goodenough, Dept. of Biology, Washington University, St. Louis William Irons, Professor of Anthropology, Northwestern University Gordon Kane, Professor of Physics, University of Michigan Jim Miller, Senior Program Associate for the AAAS Program of Dialogue Between Science and Religion W. Mark Richardson, Episcopal Priest, Associate Professor of Systematic Theology, General Theological Seminary Holmes Rolston, University Distinguished Professor in the Department of Philosophy, Colorado State University Michael Ruse, Professor of the Philosophy of Biology and Ethics, at Florida State University Mary Evelyn Tucker, Professor of Religion at Bucknell University Dorothy Wertz, Senior Scientist; Social Science, Ethics, and the Law; The Shriver Center.
The National Research Council, through its Board on Science Education, will carry out a synthesis study of informal science learning based on a workshop funded by a prior NSF planning grant. The intellectual merit of this project is based on the formation of a committee of experts representative of the diversity of the field who will engage in a fact-finding process on learning science in informal settings, deliberate about the evidence and produce a major report that will be published by the National Academies Press. The study will describe the status of knowledge in the field currently, articulate a common framework for the next generation of research on informal science learning and provide guidance to the community of practice. By presenting what we know about the characteristics of effective informal science learning environments across a range of outcome measures, the study will achieve broader impacts by assisting practitioners, policymakers and researchers in directing their efforts towards realizing the potential of informal science education for advancing public science literacy.
The University of Pittsburgh Center for Learning in Out-of-School Environments (UPCLOSE) proposes to redevelop its web-site, http://www.informalscience.org, which has become the primary online resource for researchers and practitioners dedicated to dissemination and development of knowledge about informal science and learning. The redesigned site will include more multimedia elements, an expanded research database and an improved search function. The site will be expanded by adding a quarterly Informal Learning Research newsletter (with the American Educational Research Association), conference reporting, interview articles, monthly evaluation tools and tips articles, Informal Science in the News clipping service, Research Toolkit and a listserv. It also will include digitized resources of the Visitor Studies Association. This web-site will support the continued creation of a cumulative body of empirical research and improve connections between research and practice. In so doing, it will foster the continued development of a community of practice in informal STEM education. This project will significantly enhance a major element of the infrastructure for this field.
The Liberty Science Center (LSC) will develop "Science Now, Science Everywhere (SNSE)," a three-year project using mobile phones to expand exhibit learning at three LSC exhibits. Goals of the project include conducting intensive research on the capabilities of mobile phones for exhibit learning; developing methods with mobile technology to sustain and expand informal learning beyond the science center; investigating the effectiveness of mobile learning, as a means to engage wider audiences and underrepresented groups in science learning; and inspire new generations of technology users to participate in informal science learning. "SNSE" research will greatly expand upon limited findings on pedagogical and technological issues associated with mobile learning. Results will be disseminated to the field at professional conferences, via the project's website, and at the Association of Science and Technology Centers' RAP Sessions at the Liberty Science Center. An online resource and planned symposia for ISE professionals will be hosted by LSC on the "SNSE" process with review of the research and guidance on how to utilize project prototypes. Collaborators include Caterpillar Mobile, the Center for Mobile Communication Studies at Rutgers University, the Institute for Learning Innovation, and Verizon Communications.
Maine is a rural state with unequal access to computers and information technology. To remedy this, the Maine laptop program supplies iBooks to every seventh and eighth grade student in the state. The goal of EcoScienceWorks is to build on this program and develop, test and disseminate a middle school curriculum featuring computer modeling, simple programming and analysis of GIS data coupled with hands-on field experiences in ecology. The project will develop software, EcoBeaker: Maine Explorer, to stimulate student exploration of information technology by introducing teachers and students to simple computer modeling, applications of simulations in teaching and in science, and GIS data manipulation. This is a three-year, comprehensive project for 25 seventh and eighth grade teachers and their students. Teachers will receive 120 contact hours per year through workshops, summer sessions and classroom visits from environmental scientists. The teachers' classes will field test the EcoScienceWorks curriculum each year. The field tested project will be distributed throughout the Maine laptop program impacting 150 science teachers and 17,000 middle school students. EcoScienceWorks will provide middle school students with an understanding of how IT skills and tools can be used to identify, investigate and model possible solutions to scientific problems. EcoScienceWorks aligns with state and national science learning standards and integrates into the existing middle school ecology curriculum. An outcome of this project will be the spread of a field tested IT curriculum and EcoBeaker: Maine Explorer throughout Maine, with adapted curriculum and software available nationally.
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TEAM MEMBERS:
Walter AllanEric KlopferEleanor Steinberg
The Coalition for Watershed Education, consisting of the Land Access Information Association, Great Lakes Children's Museum, Interlochen Public Radio and Northwestern Michigan College Great Lakes Studies Institute will implement a comprehensive science education project for youth and adults. The major components include: Watershed Discovery field experiences, Soundscapes radio broadcasts, Waterscapes exhibits, a project website, and the expanded Great Lakes Coalition for Watershed Education. Watershed Discovery is a field-based experience for youth ages 11-17. Teams of 6-10 youth will work with mentors who specialize in GPS, GIS, geology and geography to research and collect data on the Great Lakes watershed. These students will also use their new knowledge to produce radio segments as part of the Soundscapes component. Youth teams will be trained to interview sources, gather information and write scripts for use on the local National Public Radio affiliate. The Great Lakes Children's Museum will design a permanent, interactive watershed of 1,500 square feet, as well as a traveling exhibit of 500 square feet for visitors ages 7-12. Other deliverables include "A Community Guide to Watershed-based Science Education" (available in print and CD-ROM), a one-day regional dissemination conference, and an interactive website. Strategic impact will be realized through the development of a novel model for watershed education, its subsequent replication and summative evaluation outcomes. It is estimated that over 40,000 children will be reached by this community-wide initiative.