The New England Wild Flower Society, in collaboration with the Yale Peabody Museum, Montshire Museum of Science, and the Chewonki Foundation, is implementing the Go-Botany project, a multi-faceted, web-based botany user interface. "Go-Botany: Integrated Tools to Advance Botanical Learning," improves botanical education by opening plant study to a larger and more diverse segment of the population including novices, citizen scientists, and informal science educators. The project is designed to integrate a variety of web tools and mobile communication devices to facilitate learning about botany and plant conservation with a focus on native and naturalized plants in New England. Project deliverables include an online database of New England plants; online keys to over 4,000 species of New England flora; a customizable user interface; My Plants personal webpages; an outdoor exhibit that incorporates mobile resources; training programs for informal science educators and educational programs for the public. Projected impacts include increased attraction to and engagement in botanical learning for public audiences and improved teaching abilities by informal science education professionals through the application of user friendly, digital resources on mobile communication devices. Go-Botany significantly impacts the field of informal science education by changing the way that informal learners learn about plants by removing barriers through the use of free online materials, mentoring, and user created resources. This project is projected to reach over 46,000 youth, adults, and informal educators in workshops and via the Go-Botany website.
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TEAM MEMBERS:
Elizabeth FarnsworthGregory LowenbergArthur HainesWilliam Brumback
The University of Southern California's Institute for Creative Technologies and the Museum of Science, Boston will create life-sized, 3-D Virtual Humans that will interact with visitors as interpretive guides and learning facilitators at science exhibits. Through the use of advanced artificial intelligence and intelligent tutoring techniques, Virtual Humans will provide a highly responsive functionality in their dialogue interpretation that will generate sophisticated interaction with visitors about the STEM content related to the exhibit. The project exemplifies how the confluence of science, technology, engineering, mathematics and education can creatively and collaboratively advance new tools and learning processes. The Virtual Human project will begin to present to the visitor a compelling, real life, interactive example of the future and of the related convergence of various interdisciplinary trends in technology, such as natural language voice recognition, mixed reality environments, para-holographic display, visitor recognition and prior activity recall, artificial intelligence, and other interdisciplinary trends. The 3-D, life-sized Virtual Humans will serve as museum educators in four capacities: 1) as a natural language dialogue-based interactive guide that can suggest exhibits to explore in specific galleries and answer questions about particular STEM content areas, such as computer science; 2) as a coach to help visitors understand and use particular interactive exhibits; 3) be the core focus of the Science behind the Virtual Humans exhibit; and 4) serve as an ongoing research effort to improve human and virtual human interactions at increasingly sophisticated levels of complexity. The deliverables will be designed to build upon visitor experiences and stimulate inquiry. A living lab enables visitors to become part of the research and development process. The project website will introduce visitors to the technologies used to build virtual humans and the research behind their implementation. The site will be augmented with videos and simulations and will generate user created content on virtual human characters. Project evaluation and research will collect language and behavioral data from visitors to inform the improvement of the virtual guide throughout the duration of the grant and to develop a database that directly supports other intelligent systems, and new interface design and development that will have broad impact across multiple fields.
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TEAM MEMBERS:
William SwartoutDavid TraumJacquelyn MorieDiane PiepolH. Chad Lane
A Youth-Directed Cafe Scientifique targets culturally, ethnically, and economically diverse youth ages 11-18 with a web-based program designed to engage students in active discourse on current STEM topics. Building on the adult program of the same name, this youth-centered project also provides opportunities for individual and group activities. Project partners include Los Alamos National Laboratory, the Bradbury Science Museum, Sandia National Laboratory, Los Alamos Women in Science, and the University of New Mexico, which will serve as a source of scientists to act as speakers and mentors. Northern New Mexico Collefe, Santa Fe Community College, University of New Mexico, and theNew Mexico Museum of Natural History and Science, as well as area high schools will host discussions and focus group meetings. Recruitment of youth participants will be carried out by New Mexico MESA as well as four local high schools. Project deliverables include a robust model for engaging youth in an active online community and Youth Leadership Teams (YLT). YLT's select topics, recruit members, and facilitate Cafe discussions and blogs. Cafe meetings enable youth to explore a topic of their choice in an online session led by a youth host in conjunction with a guest speaker. The follow-up sessions encourage more in-depth exlopration of the topic via interviews, articles, community meetings, and museum exhibits created in collaboration with the Bradbury Museum. The Cafe website will highlight youth produced podcasts, essays on science topics, and a blog. Strategic impact resulting from this project includes the development of a creattive model that effectively engages youth in STEM discourse while meeting the cultural and intellectual needs. It is anticapated that this project will serve over 5,700 youth in three years.
Cosmic Serpent - Bridging Native and Western Science Learning in Informal Settings is a four-year collaboration between the Indigenous Education Institute and the University of California-Berkeley targeting informal science education professionals. This project is designed to explore the commonalities between western science and native science in the context of informal science education. The intended impacts are to provide informal science education professionals with the skills and tools to gain an understanding of the commonalities between native and western worldviews; create regional networks that bridge native and museum communities; develop science education programs in which learners cross cultural borders between western science and indigenous peoples; and meet the needs of diverse audiences using culturally-responsive approaches to science learning. Participants are introduced to topics in physical, earth, space, and life science, using an interdisciplinary approach. Deliverables include professional development workshops, peer mentoring, museum programs for public audiences, a project website, and media products for use in programs and exhibits. Additionally, regional partnerships between museums and native communities, a legacy document, and a culminating conference jointly hosted by the National Museum of the American Indian and the Association of Science and Technology Centers will promote future sustainability. Strategic impact is realized through participants' increased understanding of native and western science paradigms, museum programs that reflect commonalities in the two approaches, partnerships between museums and native communities, and increased institutional capacity to engage native audiences in science. This project directly impacts 270 informal educators at 96 science centers and tribal/cultural museums nationally while the resulting programs will reach an estimated 200,000 museum visitors.
The Children's Museum of San Jose, in collaboration with developmental psychology researchers at UC Santa Cruz (UCSC) and science and education staff of the UC Berkeley Museum of Paleontology (UCMP), is conducting a 48-month long project that focuses on children's use of evidence to construct scientific explanations. Key deliverables are: a 2,300 square-foot paleontology exhibit with an Evidence Central area three "evidence hubs" at the Children's Museum of San Jose, an educational Web site developed by UCMP, research on children's use of evidence conducted by Maureen Callanan's research group at UCSC, a "state of the children's museum field" study on varieties of perspectives on "science" and "evidence," and professional development experiences for staff at children's museums. Additional partners include the children's museums in Austin, TX, Madison, WI, and Providence, RI and local Vietnamese and Latino organizations in the museum's neighborhood. Randi Korn & Associates will conduct the program summative evaluation process and the "state of the field" study. The project identifies and will work to address two specific needs in the field: (a) a clearer sense of the developmental progression of children's understanding of evidence, and (b) a rigorous and systematic investigation of children's open-ended reasoning about evidence in a rich content domain (paleontology). The strategic impact goal is to build capacity in children's museums, enabling them to offer more evidence-based science learning experiences for their visitors.
The American Museum of Natural History, the Cornell Lab of Ornithology, and the National Audubon Society are partnering to organize a workshop for scientists, educators, and community members involved in conservation-oriented Public Participation in Scientific Research (PPSR) projects. PPSR projects have the potential to advance scientific discovery by engaging volunteers in large-scale data collection and analysis, enabling volunteers to conduct scientific inquiry, and promoting stakeholder involvement in policymaking. Despite PPSR's potential, educators need to understand what mechanisms best nurture the development of skills, attitudes, and behaviors of citizen scientist volunteers. Workshop participants will share experiences, lessons learned, protocols and tools, and develop an agenda for answering still unanswered questions about advancing informal science education goals via PPSR activities. Topics for workshop sessions include models of PPSR projects; PPSR data for conservation biology; conservation psychology; integrating PPSR into conservation planning; and emerging technologies for public participation in PPSR projects. The goals of the project are to (1) enhance the practice of biodiversity science, (2) increase the potential for biodiversity conservation projects to meet educational goals, (3) allow scientists to further engage in and contribute to answering large-scale research questions, and (4) prepare the groundwork for establishing more public participation projects as part of museum public programs. The project's objectives are to identify conditions under which PPSR projects can be most useful for biodiversity conservation, explore the impact of PPSR in encouraging volunteers to become interested in and stewards of nature, identify strategies and mechanisms for expanding the reach of PPSR to new audiences, and create a network for PPSR organizers.
Portal to the Public is a program designed to assist informal science education (ISE) institutions as they seek to bring scientists and public audiences together in face-to-face public interactions that promote appreciation and understanding of current scientific research and its application. Led by Pacific Science Center (WA), in collaboration with Explora (NM), the North Museum of Natural History and Science (PA) and the Institute for Learning Innovation (MD), the program model was implemented and evaluated at five additional museums and science centers during 2007-2011. The project goals were to create a flexible and scalable guiding framework that would support ISE institutions build relationships with their local scientific community, design professional development workshops for scientists, and create public program formats featuring scientists. The project included thorough research and evaluation of the guiding framework, dissemination process, and implementation at expansion sites. The Portal to the Public project team has produced an Implementation Manual as a guide for institutions planning to implement a Portal to the Public-type program, available for download at the project website (http://www.pacificsciencecenter.org/Portal-to-the-Public/portal). It includes the Catalog of Professional Development Elements, a practical guide to creating and facilitating professional development experiences for scientists.
Cyberchase is the only mathematics series for children on U.S. television. Cyberchase is designed to engage children aged 8-11 in mathematics, help them develop knowledge and skill in math and problem-solving, and reinforce the usefulness of mathematics. The content of Cyberchase supports the 3rd-5th grade standards of the National Council of Teachers of Mathematics. While Cyberchase will continue to be broadcast nationally on PBS, this broad implementation proposal will expand access to Cyberchase's entire body of materials on a reconstructed online portal. This new digital portal will house all of Cyberchase's multi-media mathematics content including 94 episodes, over 50 online math games, and scores of activities. The portal will organize materials by math topic, allow for on-demand viewing and downloading, and create guided learning trajectories to make it easy and fun to explore a math concept more deeply. Ongoing outreach will sustain Cyberchase's PBS presence and its impact on communities. Multimedia Research will conduct front-end/formative evaluation to inform design decisions. MediaKidz Research and Consulting will help set up online tracking mechanisms in the prototype phase and will track and analyze data once the portal is launched. The project will partner with online content providers such as Yahoo Kids and NSDL's Science and Math Informal Learning Educators (SMILE) pathway, and Science Buddies to expand distribution and use. They will also work with existing partners, both in the formal and informal arenas, to introduce the new portal to a wider audience. These partners include the National Council of Teachers of Mathematics (NCTM), National Council of Supervisors of Mathematics (NCSM), Girl Scouts, Girls, Inc., National Engineering Week Foundation (EWeek), and VITAL (Video in Teaching and Learning). Cyberchase online currently attracts 500,000 unique visits a month. The proposed portal will continue to serve this audience in improved ways and serve new audiences who cannot or do not watch PBS stations. It will also provide a home for the material for the expanding numbers of young people who are spending increasing time online. Besides expanding access to Cyberchase materials, the new portal will be able to provide guided learning paths through which users will be prompted to navigate around themes or concepts. To test whether the new learning pathways succeed in encouraging children to use related media on the site, tracking mechanisms will be designed and the resulting data analyzed.
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TEAM MEMBERS:
Sandra SheppardFrances NankinMichael TempletonBarbara Flagg
This collaboration between the Franklin Institute and the Free Library of Philadelphia Foundation identifies the role of crucial intermediaries in the science learning of children and points to the opportunities offered through a museum and library partnership to provide engaging science resources in under-resourced communities where many adults lack science expertise and confidence. Through an emphasis on literacy and science, LEAP into Science builds the capacity of after school leaders, teens and parents to be competent science learners and facilitators and to connect science centers, parents and libraries in support of the science learning and achievement of children. Project features include a workshop model for families with K-4 children, enrichment sessions for after school students, family events at the museum, professional development for library and after school youth staff, and a national expansion conference. The conference introduces the project to potential national implementation sites. Case studies of sites from this conference inform a research study investigating the obstacles, modifications and necessary support to initiate and sustain the program model. The formative and summative evaluation measure the impact of this program on children, parents, librarians, and teen workers at the libraries. Fifty-three Philadelphia libraries in addition to libraries in three cities selected from the implementation conference have a direct program impact on 10,000 people nationally, including 300 after school facilitators and children's librarians.
"Waters Journey through the Everglades" was funded to impact adolescents by increasing their awareness and their understanding of the relevance of the environment, specifically water, in South Florida. The deliverables were to design, develop and produce technology-based experiences enhancing a new EcoDiscovery wing at the Museum of Discovery and Science in Ft. Lauderdale, Florida. Appropriate use of emerging technology was a cornerstone of the project as the project team sought to research how the depth and breadth of hands-on exhibits could be expanded, allowing the target audience of adolescent learners to explore "what if?" questions around the learning experiences in the new museum wing. The ability to change parameters of the exhibits, to make individual choices that change the outcome of the experience, was seen as a way to create more excitement, more social discourse, and deeper understanding. Research questions revolved around the following areas: -Linking technology to the hands-on exhibits under design for the new MODS wing, and using them to expand the depth and breadth of the hands-on exhibits. -Using augmented reality in appropriate areas not to show phenomenon-based things (like a working heart for example) but as a narrative enhancement to spur exploratory investigation into changing parameters and understanding the consequences of actions. -Researching new ways to get content information to the learners at the appropriate time in their exploration so they are ready to receive the information, rather than putting large graphic panels to relate the content. Only an average of 3% of visitors read labels, and we know that 3% is largely skewed toward older adults. -Researching how to engage the adolescent audience in museum experiences. Educational impact on the target adolescent audience revolved around exploring whether the resulting exhibit enhancements would help them: Develop a greater awareness of how water impacts the environment, from the local to the global. -Gain a clearer concept of the time scales and scope of environmental change. -Raise their confidence level in their ability to understand the relevance of science as they explore the vast amount of scientific data that has been collected, and answer their own questions about the Florida Everglades™ rich and fragile ecosystem, and its importance to their own community.
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TEAM MEMBERS:
Eileen SmithKim CavendishCharles Hughes
resourceprojectProfessional Development, Conferences, and Networks
The Metcalf Institute for Marine & Environmental Reporting at the University of Rhode Island Graduate School of Oceanography is implementing a three-stage sequence of workshops that will bring together science journalists, communications professionals, informal science education professionals, and NSF-funded (RAPID) research scientists who are studying the Deepwater Horizon oil rig failure and its impact on the Gulf of Mexico. During this period of focused interest by the public, the three stages will allow for an iterative process of capacity-building by journalists and informal science educators that will result in a set of experiences and resources to improve the public understanding of the oil spill's impacts and the specific scientific techniques used to assess the impacts. The project's outcomes also include strengthening the communication skills of the research scientists via new media and talks tailored to journalists and informal science educators. The three stages are: (1) Three sessions at the October 2010 conference of the Society of Environmental Journalists; (2) an April 2011 2.5-day seminar in Louisiana co-hosted by Louisiana State University and Louisiana Universities Marine Consortium (including field experience on an LSU research vessel); and (3) a June 2011 week-long "science immersion workshop" (including laboratory and field experience on a URI research vessel) and five associated public lectures at the Metcalf Institute, including web cast live via Internet2. The three programs are being evaluated by faculty at the Public Policy Research Lab of LSU Manship School of Mass Communication.
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TEAM MEMBERS:
Sunshine MenezesNancy RabalaisLisa LundyRobert GoidelChristopher D'Elia
This is a proposal for a 3 year, $1,297,456 project to be conducted as collaboration among 5 higher education institutions and one school system across the country, with St. Joseph's University in Philadelphia, PA serving as the lead institution (other collaborators are from Colorado School of Mines, Ithaca College, Santa Clara University, Duke University, and Virginia Beach School System). The primary goal is to attract and retain students in computer science, especially women and underrepresented minorities (including two EPSCoR states). To this end, the project will use Alice, a software program that utilizes 3-D visualization methods, as a medium to create a high-level of interest in computer graphics, animation, and storytelling among high school students, hence to build understanding of object-based programming. Such an IT focus on media and animation is aligned with national computer science standards. The project will build a network of college and high school faculty, who will offer workshops and provide continuing support during the academic year. In each site, pairs of teachers from each participating school (total = 90) will learn with university faculty via a 3-week summer program in which an introduction to using Alice for teaching will be followed by teacher development of materials for students that will then be used to teach high school students. An experimental start at one site will be followed by implementation at four additional sites and culminated with revised implementation at the sixth site (1-4-1 design).