TERC Inc. will conduct a one-year proof of concept study that includes the design, development, and research of two prototype science activities for the virtual Blue Mars Science Center located on the Blue Mars 2150 platform developed by Virtual Space Entertainment. Blue Mars is a science fiction-themed virtual world set on Mars far in the future and will be rendered in High Definition, an important incremental step in the development of highly realistic virtual worlds. It is in this virtual world context that the proposed learning activities and research are to be conducted. TERC's research will examine the challenges of learning in virtual environments and which types of tools and interactions can encourage and support collaboration, the results of which will advance both informal and formal learning in virtual worlds. Avatar tracking data, participant observations, interviews, and surveys will be used to study participants. The project has the potential to advance areas of computational visualization systems and cognitive science and will afford an array of learning opportunities using real time data. Millions of visitors to the Blue Mars world will be able to share in an unprecedented range of virtual activities and experiences. It is anticipated that the research will inform the future development of even more advanced immersive interactivity, such as avatar-based models and computationally-oriented interactivity. The study will serve as a basis for both further development of the Blue Mars Science Center and the advancement of research on science learning in virtual worlds. The investigators are interested in continuing to expand as the scientific community evolves in the virtual world. The online world has the potential to become a powerful attractor for the general public to engage in science learning.
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TEAM MEMBERS:
Jodi Asbell-ClarkeTeon EdwardsRichard Childers
The Shared Signing Science Planning Project will develop a prototype of a web-based Signing Science Pictionary. The prototype will be piloted to families and caretakers of deaf and hard of hearing children to study the feasibility and effectiveness of the learning technology and identify the activities that are most effective in helping deaf children learn life science at informal science centers. The project team will also compile a dictionary of science terms with the intention of including the terms in a full version of the Pictionary. The final Pictionary will be comprehensive; including scientific terms from life, physical, Earth, and space science and will be presented in animated sign language accompanied by written explanations and pictorial illustrations. The project will also produce a video guide with a description of activities that parents can implement with their children. The planning project will result in a prototype with 100 life science terms of species found at the three informal science centers the children and parents will visit to test the prototype. These informal sites are hands-on and exploratory featuring marine organisms and a range of terrestrial flora and fauna to touch and interact with. To prepare for the site visits, parents and caretakers of deaf or hard of hearing children will be taught how to use the Pictionary with children through a Flash-based movie that introduces the interactive features and assists the parents in engaging with their children in three activities using the signing scientific vocabulary. The preparatory vocabulary work with the parents and children will lay the educational foundation for the visits to the informal science education sites. Families will test the initial project prototypes with deaf children using a control group for comparison. Pre-tests will be used to assess childrens' vocabulary before use of the Pictionary. Follow up tests will test knowledge of the new words and will include field observations of children in museums, zoos, and farms, where the new terms will come to life in corresponding exhibits. The results of the ongoing evaluation will be compiled into a guide for other developers of similar materials for the deaf community, and will impact the development of the final project. The project will broaden participation of an underserved audience in STEM learning and generate new knowledge about how to effectively integrate emerging learning technologies into exhibits and programs for deaf learners.The project team includes TERC and Vcom3D and collaborators from Gallaudet University Regional Center at Northern Essex Community College, the College of the Holy Cross, and the Learning Center for Deaf Children. Participating informal science education institutions are represented by the EcoTarium, Davis' Farmland, and the Stone Zoo. These partnerships provide the necessary expertise and support for the proposed project to have significant impact on advancing STEM learning in informal settings for children with hearing disabilities through the use of assistive learning technologies.
This proposal builds upon the current NSF funded POLAR-PALOOZA project (#0632262) extending the "Stories from a Changing Planet" to learners around the world. This project is a tour of seven nations (China, Malaysia, South Africa, Norway, Canada, Mexico, and Australia) featuring stories told by a diverse team of polar researchers who are also compelling storytellers. A museum or science center in each country serves as the host institution and local coordinator for a suite of 1-2 days of additional education and outreach activities. There are presentations for large general audiences, supplemented by small group interactions with community leaders and local media, providing opportunities to interact directly with polar experts in order to learn about these little-understood regions and to appreciate why the Poles and polar research are relevant to their lives. Special workshops for teachers, undergraduates or other audiences take advantage of the researcher's presence on site. At any one international site, no more than 2-3 of the presenters will be Americans with the rest of the team made up of researchers from the region and host nation. In addition to the personal interactions the project will leverage the already-funded POLAR-PALOOZA deliverables, and provide museums and science centers with online access to a growing set of HD videos.
Building upon extensive prior work, the Institute of Learning Innovation is developing and implementing a conference to bring together media professionals, researchers, and policymakers that work in ISE to reflect upon recent research and develop frameworks for future practice and evaluation. Various media-related groups (print, broadcast, electronic gaming, etc,) usually have professional conferences in isolation from each other with little sharing of information and research findings. Despite the rapid blurring of boundaries between various media types in the marketplace, researchers and practitioners remain within traditional silos. This conference will bring together 80 media practitioners and researchers for a two-day national conference in order to consolidate and synthesize the research-based theories presented in a pre-conference publication. A series of 3 post-web conferences will build on the momentum generated during the initial conference and generate broader participation within the science learning media community. Rockman et al will evaluate the conference and post conference web community.
An Early Concept Grant for Exploratory Research (EAGER) has been given to The ASTA Group, LLC to create a blueprint for an International Conference on Cyberlearning that would explore radically different approaches to both formal and informal learning at a national level. The EAGER will bring together essential individuals and organizations across a range of STEM disciplines committed to advancing Cyberlearning for the improvement of STEM education and how to use technology to connect underrepresented groups with resources and tools to which they have never before been exposed. ASTA and the national defense industrial community have encountered and solved many of the same implementation issues arising now in education and have actively sought ways that technology can improve education and training effectiveness, efficiency, and accessibility. The Defense and Defense-related industries operate at the scale necessary for successful transfer of small research projects to wide-scale application. Through ASTA's extensive R&D knowledge of advanced technologies, most specifically their work in multi-user virtual environments (MUVEs), modeling and simulation (M&S), and game-based learning as applied in the military's education, training, and workforce development programs, they will bring the highest level of expertise to the development of a blueprint for an international conference on Cyberlearning that will forge unprecedented partnerships across government, academia, and industry. ASTA and the National Training and Simulation Association (NTSA) as Principal Investigator, will submit a proposal for an international conference in 2010 based upon the blueprint developed by the EAGER grant. It is anticipated that technology will be used during the EAGER phase to plan the conference, disseminate conference-related information, and serve as an interface for activities. A website and/or Internet portal will be established and will be used to facilitate on-going partnerships, monitoring, and information sharing. It may have both public and participant levels of access. Details, as well as partners for development, maintenance, and funding will be determined through the EAGER planning period.
Many informal science and mathematics education projects employ multiple media, assuming that educational benefits will extend beyond those of a single medium. However, this assumption has not been tested empirically in a comprehensive way. This research uses Cyberchase (a multiple-media, informal mathematics project for 8- to 11-year-olds) to investigate synergy among multiple media components and how they interact to yield cumulative educational outcomes. Research questions: (1) How does mathematics learning from multiple media differ from learning from a single medium? (2) What outcomes derive from engagement with different types of media and what types of synergy occur? (3) How can reliable research methods be developed to assess contributions of individual media and their interactions? (4) How can informal education projects capitalize on the strengths of each medium? (5) How can media components be designed and employed to best complement each other? The research has four phases: (1) Preparatory - Recruit participants nationally with parental consent. Finalize methods and measures. (2) Naturalistic - Track naturalistic use of various Cyberchase media among 600-800 third and fourth graders. Assess mathematical problem solving and attitudes toward math. (3) Experimental - Establish causality by assigning a subset of the participants (N = 300-400) to several experimental conditions that are exposed to different combinations of Cyberchase media. Measure change in attitudes and problem solving from pretest to posttest. (4) Analysis - Employ appropriate regression and model fitting analyses to analyze the naturalistic and experimental data, and to synthesize the two. Because of the paucity of relevant existing research, this research will shed light on the educational impact of Cyberchase and on the design and assessment of multiple-media approaches to informal STEM education overall. It will advance our theoretical understanding of children's informal mathematics learning - specifically, how children learn from various media, what strengths each medium brings to bear, and what synergy might exist among media - and inform the best practice design and evaluation of future informal projects that use multiple media.
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TEAM MEMBERS:
Shalom FischRichard LeshVincent MelfiSandra CrespoSandra Sheppard
Oregon Public Broadcasting is requesting funds to produce three one-hour nationally broadcast television programs, a project website, community-centered outreach coordinated by AAAS in 7 U.S. cities, a seminar discussion guide and a series of 90-second programs as part of the "Earth &Sky" radio series. The subject and purpose of the project is to attract public interest in nanotechnology by examining the social, ethical, legal and environmental issuers surrounding its application. The television programs will be produced by Fred Friendly Seminars (FFS) and broadcast on PBS. Two science museums, Boston Museum of Science and the South Carolina State Museum, and the University of California, Berkeley, will host the FFS panels. The format of the Seminars is designed to produce thought provoking and nuanced discussions of contemporary issues. Collaborative partners in the project include AAAS, Lawrence Hall of Science and ICAN Productions. The outreach initiative includes outreach to "targeted stakeholders" in 7 US cities, four 90-second radio spots as part of Earth & Sky, a project web site and a Seminar discussion guide. Inverness Research Associates and Edu, Inc. will conduct both formative and summative evaluation of the project components.
Frozen Planet is a landmark multi-media seven-part television series, with complementary website, whose goal is to inform and inspire audiences about the environment and ecology of the Polar Regions and the science being carried out there. The series will highlight multiple disciplines including climatology, volcanology, geology, glaciology, as well as natural history. Frozen Planet will be produced in High Definition by the BBC Natural History Unit and Discovery Communications for broadcast worldwide on Discovery Channel in 2011. The proposal to NSF is for 1) field support for filming various NSF-supported research efforts in Antarctica and 2) funding to cover evaluation of the project's intended learning impacts in the United States. Goodman Research Group will conduct the summative evaluation to measure learning impacts centered on the audience's understanding of the polar environment, the science being undertaken there, and the implication of the new scientific findings to their everyday lives. For scientific and field support, the production team is collaborating with many organizations in addition to NSF's Office of Polar Programs including the British Antarctic Survey, the Canadian Polar Continental Shelf Project, and NASA. Through repeated broadcast, video-on-demand, the website, and DVDs, the project will provide a comprehensive, enduring resource. The project is anticipated to reach more than 65 million people across the U.S.
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TEAM MEMBERS:
Dan ReesCarlos GutierrezChrstine Weber
WGBH's newest mission is to develop the Children's Sustainability Project - a daily animated series for kids ages 8-11 that will teach the STEM concepts underlying systems and sustainability. Our promise is that 7-8 kids from around the world become trapped, one by one, in an inventive, multi-leveled video game. The kids, unlikely heros all, are initially happy to be stuck but eventually want desperately to get out of the home. To do this they must become inventive and creative and play the game to the end. Stakes are high and only systems thinking and sustainable actions can save the day.
Abstract: The Liberty Science Center will organize a one-day symposium linked to the Giant Screen Cinema Association (GSCA) International Conference and Trade show in September 2008. The symposium will focus on the greater potential of gian screen experiences to connect society with science, building on the GSTA's symposium "Giant Screen Films and Lifelong Learning held in 1999. The program will bring together science and education experts with filmakers to stimulate and enhance more effective approaches to science learning in future giant screen films. Symposium results will be disseminated through publication and the internet, as well prepared for submission to peer-reviewed journals. An industry-specific listserv focused on lifelong learning will be created to serve as a new community-building tool for exchange among producers, distributors and exhibitors. Emlyn Koster (Liberty Science Center) and Mary Nucci (Rutgers University) will serve as aymposium chair/PI and symposium manager/Co-PI, respectively; in partnership with GSCA staff, they will be responsible for symposium management, evaluation, and dissemination of results.
The Conference on Cyberlearning Tools for STEM (CyTSE) brings together scientists, cyberlearning developers, educational researchers, STEM educators (formal and informal), curriculum developers and other stakeholders that contribute to the agenda on K-12 STEM cyberlearning and workforce preparation. Collaborators include Northwestern University, University of Colorado at Boulder, and the WGBH Educational Foundation. This informative meeting will be held as a NSTA pre-conference workshop. The conference plan includes keynote presentations by prominent cyberinfrastructure and cyberlearning professionals, an expert panel on cyberlearning and the future of STEM education, hands-on demonstrations of cyberlearning tools for participants, and interactive poster sessions. Potential tracks for the poster sessions include emerging technologies, design and development, technical challenges and solutions, implementation and integration, and research and evaluation. The second day of the conference will include teacher professional development workshops, as well as in-depth design focus groups, developer integration and interoperability workshops, and a session emphasizing the development of a cyberlearning research agenda. Additional deliverables include a video overview of the conference (for those unable to attend), a white paper proposing a cyberlearning research agenda, and an evaluation study to measure the impact of the conference on participants. A series of post-conference webinars will be hosted by WGBH's Teachers' Domain and publicized on their Facebook, Classroom 2.0, and Science Ning sites to encourage ongoing collaboration. It is anticipated that this two-day conference will bridge gaps between the stakeholder communities and expose important trends and issues that will contribute to a comprehensive research agenda.
Led by Washington University, Making Natural Connections: An Authentic Field Research Collaboration (DRL-0739874), is a series of two field-based informal science education programs in environmental biology targeting St. Louis area teenagers. The project aims for engagement of science research institutions and career scientists in the execution of informal science education programming, bringing real and dynamic context to the science content and allowing for deep and transparent career exploration by teenage participants. Project goals include (1) providing a model for integration of informal science education into the research and restoration projects at biological field stations and nature reserves, (2) communicating current environmental biology research to audiences outside the research community, and (3) influencing the entry of pre-college students into the science career pipeline. The project is a collaborative partnership between Washington University’s Tyson Research Center and the Missouri Botanical Garden’s Shaw Nature Reserve. The Shaw Institute for Field Training (SIFT) program trains St. Louis area high school students in scientific exploration of the natural world at Shaw Nature Reserve. During a one-week training session in June, teens are introduced to a variety of Missouri ecosystems and gain skills necessary to conduct field research, including plant and animal identifications, biotic sampling and census techniques, testing of abiotic factors, and training in the use of maps, compass and GPS. During the rest of the summer and school year, teens are involved in important research and restoration activities at Shaw, Tyson Research Center and other field research sites in the St. Louis area. Fieldwork opportunities may include invasive species management, prairie reconstruction, plant and animal inventories, and prescribed burns. The Tyson Environmental Research Fellowships (TERF) program places high school students as summer interns on ecology and environmental biology research teams at Tyson Research Center. Selected teen participants have successfully completed the SIFT program and apply their field skills to ongoing research projects at Tyson and other partnering research sites. During the summer, the four-week program provides teens with exposure to a variety of field science experiences and skills. TERF teens work alongside university scientists, post-doctoral researchers, graduate students and undergraduate students. The TERF program provides a cultural apprenticeship in university-based environmental biology research and training in scientific communication. It is an advanced summer experience modeled on the undergraduate research internships offered at Tyson. During the following school year, participants work on posters and presentations for symposia at Washington University and Tyson and at community fairs, and their posters are displayed at Shaw Nature Reserve. A national dissemination workshop for informal science educators, high school biology teachers, and research scientists provides the necessary materials and background to replicate the project design in other locales. The summative evaluation will address impacts on teenage participants (engagement, cognitive and emotional support, competence, career viability, experiential learning) and professional audiences (implementation of teen program, program components, impacts on mentoring scientists). The strategic impact of this project results from the integration of teenage immersion experiences into research activities at a university-based facility. This model of informal science training activities leading into participation in authentic research may be transferable to other STEM disciplines.
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TEAM MEMBERS:
Phyllis BalcerzakPeter RavenSusan FlowersKim Medley