This research project, from The University of Central Florida, and the Museum of Science and Industry, investigates a three-cycle research and development process where middle school student learners will be immersed in a mixed reality environment while interacting with functional metaphors to determine the effects of conceptual change, motivation and scientific habits of mind while engaged in learning physics content. The project is guided by the following research questions: How does the opportunity to embody elements of an immersive simulation affect a learner's propensity to experience conceptual change and develop scientific habits of mind? What design features of missed reality environments best support metaphors? What metrics are most effective for assessing learning through body-based metaphors? What are the practical considerations to creating immersive metaphor-based learning experiences in ISE institutions such as a Science Center? The investigators will use a between subjects mixed method approach with middle school students (N = 360) involving three research cycles that are performed in controlled conditions. The multiple iterations will allow modifications to the study's design to dig deeper into the data and afford more careful analysis, revisions and modifications to simulation content, protocol and data collection instruments and the technology installation. Middle school students will be recruited from local schools and the Museum of Science and Industry visitors. The evaluation plan includes the assessment of perceived values of using whole-body metaphors within mixed reality environments to learn physics. Professional audiences, educators and ISE practitioners will assess the impact, design and content associated with research on learning, mixed reality design, science and physics education. Research on understanding the process of using whole-body interactions in a mixed reality environments will help educational researchers and practitioners in the field understand the effectiveness of metaphor based learning of scientific concepts with whole body interactions. This project contributes knowledge about how people learn within informal settings. This theory-driven design approach has the potential for broad implementation in both formal and informal environments.
This project will develop a prototype intelligent cyberlearning platform for middle school audiences at a museum location to test and evaluate the use of virtual learning technologies. The content for this test is focused on sustainability issues that enable students to develop an age-appropriate understanding of the relationships between specific conservation decisions, energy use, human health, and population growth within Earth's ecosystem. The prototype cyberlearning system will demonstrate how users can learn about science topics by interacting with a display of environmental factors that enable them to explore the impact of social, economic, and technological forces that may change one existing state and condition to another. The system will enable users to understand the interrelationships of those elements by enabling them to change conditions and then observing the effect of the changes they make on the conditions presented in the initial model. The prototype intelligent cyberlearning system will provide a unique integration of a sophisticated agent-based modeling simulation of environmental, social, and economic phenomena with three advanced learning technologies: game-based learning systems, intelligent tutoring systems, and narrative-centered learning systems. The game-based and narrative aspects of the project are embodied in the interactive time-travel focus of the 3D display on a multi-touch surface computing table in which users will play the role of environmental scientists who have been charged with helping earth become a thriving green planet. They will go back in time and be given the opportunity to make different decisions on any range of options. After they make their decisions, they will travel forward in time to see the results of their decisions. All of the interactions will be used to dynamically generate their time-travel adventures. The intelligent tutoring system will track user\'s problem-solving activities in the simulated world. As users make decisions, the intelligent tutoring system will draw inferences about their level of understanding of key environmental concepts. Given the current problem-solving goal (e.g., reduce green house gases) and the current state of the environment (e.g., climatological state, earth's population, factory emissions), the intelligent tutoring system will draw on its knowledge of common environmental misconceptions to assist students as they progress through the sustainability narratives. The intelligent tutoring system will receive the updated state from the agent-based simulation, which will then provide explanatory commentary and advice through the virtual human to the users about the causal connections underlying the results of the decisions they have made. Similarly, during the course of decision-making, users will be able to request advice, and the same computational framework will drive the virtual human\'s advice generation functionalities. The project will design, development, deploy, and evaluate a prototype intelligent cyberlearning platform for sustainability that supports independent, but guided, exploration of science topics. Because all users interactions will be accompanied by a virtual environmental scientist who will narrate their journeys and offer problem-solving advice, users will be afforded rich learning opportunities that support independent inquiry but also provided guided exploration of complex science topics. With a focus on group learning experiences in the out-of-school setting, the virtual environmental scientist will answer questions that will engage groups of users in a collaborative effort to understand the rich interrelationships of sustainability. The project will demonstrate the transformative potential of intelligent cyberlearning systems that integrate agent-based modeling with game-based learning, intelligent tutoring systems, and narrative-centered learning in an out-of-school setting to enable users to experience science in fundamentally new ways.
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TEAM MEMBERS:
James LesterBradford MottJames MinoguePatrick Fitzgerald
The Exploratorium and the Museum of Life and Science will develop, evaluate and implement Science of Sharing, a three-year full-scale development project designed to bring the scientific study of human social behavior to a broad public audience. Science of Sharing will create new ways for visitors to experiment with social psychology and will generate important information for informal science institutions committed to involving visitors in discussions of personal, societal, and scientific responses to real-world challenges. Science of Sharing addresses a critical ISE issue: creating ways for visitors to experiment with inquiry based exhibits and activities that heighten public knowledge of the study of human social behavior. Based on research in social psychology and game theory, the project (a) fosters public engagement in activities exploring collaborative behavior and resource sharing; (b) promotes awareness of connections between these experiences and STEM-related research in psychology and economics; and (c) links individual behaviors to real-world issues of resource depletion and group conflict. The primary audience is youth and youth-adult museum visitors, with particular focus on underrepresented communities with limited access to communication technologies. The secondary audience is ISE professionals with interest in new kinds of interactive experience and visualization tools focusing on social behavior and techniques for fostering social interaction and public discussion of science. The project will (1) conduct front end evaluation to assess visitor attitudes and knowledge about issues of cooperation and resource use; (2) design, prototype, and evaluate 15 inquiry-based exhibits and 4 Experimonths (public events with web, museum, and community-based components on social-psychological topics); (3) conduct design-based research to investigate aspects of these exhibits and activities that prompt self-reflection and build metacognitive skills; and (4) work with local school districts to adapt exhibits for classroom use.
This is a five-year project aimed at organizing a DRK-12 Resource Network to provide assistance for projects in areas such as research and development methods, implementation, and analysis procedures; synthesis of findings across the portfolio of projects; and national dissemination of the R&D contributions of the DRK-12 program. To accomplish these goals, Education Development Center (EDC) will join efforts with Abt Associates Inc., and Policy Studies Associates to implement three major strands: (1) Technical Assistance, which consists of (a) a portfolio assessment to define it in terms of composition and major characteristics and identify project needs, (b) individual technical work services to project leadership, (c) focus groups, (d) thematic meetings, (e) Principal Investigators (PI) meetings, and (f) a web portal; (2) Portfolio Analysis, including (a) synthesis activities to capture a comprehensive view of the portfolio in order to understand the role that the program has played in advancing K-12 student and teacher learning, and (b) evaluative studies of selected projects describing specific contributions to the field; and (3) Dissemination, comprising (a) the development of a white paper to summarize research findings on dissemination and implementation of research in practice and policy settings and highlight examples from the portfolio, and (b) a series of dissemination-related workshops.
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TEAM MEMBERS:
Barbara BernsAlina MartinezJacqueline MillerE. Paul GoldenbergCatherine McCullochBrenda TurnbullFran O'Reilly
Following their experience with the 2003 NSF-funded conference, "Best Practices in Science Exhibition Development," the Association of Science-Technology Centers (ASTC) is creating for informal science education practitioners a dynamic online system, "ExFiles," for contributing to, using and conducting communications about a database on exhibitions. At least 1,000 practitioners are expected to use the site over the course of the three-year project, which will be sustained by ASTC after the grant period. The website is being populated initially with a set of at least 40 exhibitions representing a variety of scientific domains, sizes and interpretive and design strategies. Promotion of the site is being assisted by several associations: National Association of Museum Exhibitions, Association of Children's Museums, American Association of Botanical Gardens and Arboreta, American Zoo and Aquarium Association and the European Network of Science Centres and Museums.
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TEAM MEMBERS:
Wendy PollockWendy HancockKathleen McLean
Open Exhibits has released a suite of open source multitouch-enabled exhibit modules and templates with the goal of transforming the way in which museum professionals and other informal educators assemble interactive computer-based exhibits for use in museums and other informal settings. Ideum Inc., proposes a full-scale development project that will develop, test, and disseminate a free suite of original, multitouch-enabled, open source exhibit software that will transform the ability of science museum professionals to assemble interactive computer-based exhibits for use in museums and on the Web. The project offers a novel approach to exhibit development that enhances the interoperability of science content and computer-based exhibit authoring tools to promote cyber-learning in informal settings. Open Exhibits will fulfill the need for a shared platform for interactive computer-based exhibits, driven by the exponential growth of cyber-learning and the need to streamline resources and investment in the exhibit development field. There has been a rapid rise in the development and use of open source software, but few of these technologies have been designed specifically to meet the needs of the ISE field, and few have been applied directly to enhancing the visitor experience. Open Exhibits will provide a model that promotes the sharing of technology, provides access to high-quality flexible tools to develop interactive computer-based exhibits, and strengthens cyber-infrastructure for the ISE field. It will also make interactive and new media technologies more accessible for small and rural museums with limited funding. The project will develop a library of extensible software modules for all major platforms that exhibit developers can configure in specific ways. These modules (developed using the popular Adobe Flash and Flex authoring tools) will be configured as three flexible templates that have broad application across the ISE field: 1) a current science news aggregator, 2) a timeline-based exhibit, and 3) a collections viewer. The templates will also be available in the form of universal modules that more advanced users can mix and match to build customized exhibits, allowing for modification that will yield further advancements to the software. Ideum will work closely with three partner museums: The Don Harrington Discovery Center (Amarillo, TX), Maxwell Museum of Anthropology (Albuquerque, NM), and New Mexico Museum of Natural History & Science (Albuquerque, NM) which represent a broad range of STEM topical areas, and the content that they develop will show the breadth of possibilities of the software modules and templates. Other deliverables include a mini-summit to convene museum and technology experts; user support strategies; and a community of practice centered around OpenExhibits.org that will standardize interoperability and design principles and serve as a hub for user support, prototype downloads, and as an exhibit showcase.
The University of Pittsburgh's Center for Learning in Out-of-School Environments (UPCLOSE), the Carnegie Museum of Natural History, and the Robotics Institute at Carnegie Mellon University are building an open access cyberlearning infrastructure that employs super high-resolution gigapixel images as a tool to support public understanding, participation, and engagement with science. Networked, gigapixel image technology is an information and communication technology that creates zoomable images that viewers can explore, share, and discuss. The technology presents visual information of scientifically important content in such detail that it can be used to promote both scientific discovery and education. The purpose of the project is to make gigapixel technology accessible and usable for informal science educators and scientists by developing a robotic imaging device and online services for the creation, storage, and sharing of billion-pixel images of scientifically important content that can be analyzed visually. Project personnel are conducting design activities, user studies, and formative evaluation studies to support the development of a gigapan technology platform for demonstration and further prototyping. The project builds on and leverages existing technologies to provide informal science education organizations use of gigapixel technology for the purpose of facilitating three types of activities that promote participatory learning by the public--Public Understanding of Science activities; Public Participation in Scientific Research activities; and Public Engagement in Science activities. The long-terms goals of the work are to (1) create an accessible database of gigapixel images that informal science educators can use to facilitate public-scientist interactions and promote participatory science learning, (2) characterize and demonstrate the affordances of networked gigapixel technologies to support socially-mediated, science-focused cyberlearning experiences, (3) generate knowledge about how gigapixel technology can enable three types of learning interactions between scientists and the public around visual data, and (4) disseminate findings that describe the design, implementation, and evaluation of the gigapixel platform to support participatory science learning. The project\'s long-term strategic impacts include guiding the design of high-resolution images for promoting STEM learning in both informal and formal settings, developing an open educational resource and science communication platform, and informing informal science education professionals about the use and effectiveness of gigapixel images in promoting participatory science learning by the public.
TERC, in partnership with the Boston Museum of Science, will investigate deaf and hard-of-hearing museum visitors' use of App-based signing math and science dictionaries delivered on the iPod Touch. The project is employing a mixed-methods design to study how and the extent to which family visitors, ages 5-12+, and classroom visitors in grades K-12 use the dictionaries to access and communicate about exhibit content and engage in activities. Study participants will visit one of two preselected exhibit areas and do several activities that have Word Lists posted on the activity panels. The Word Lists include key terms for the activity that are also included in at least one of the dictionaries. They will then do several activities that do not have Word Lists posted. A coin toss will be used to randomly assign the first group of visitors to a starting Word List condition. The second group will then begin with the alternate Word List condition. From this point on, subsequent groups will continue to alternate the starting point. Data collection will include observation, videotaping, interviews, and surveys. Results of the study will be disseminated through a report of findings, presentations and publications.
The City as Learning Lab (CaLL) is a comprehensive research and development initiative designed to create new measures of audience impact in technology experiences; identify features of university-community collaboration that facilitate sustainable community programs; and produce a set of tools and resources that allow other cities to tailor creative robotics programs to unique audiences. Project partners include the University of Pittsburgh Center for Learning in Out-of-School Environments (UPCLOSE), the Community Robotics Education and Technology Empowerment (CREATE) lab at Carnegie Mellon University's Robotics Institute, and the Georgia Institute of Technology as well as local museums, community organizations, and afterschool clubs. CaLL builds on the work of three existing youth technology programs in Pittsburgh targeting audiences ages 9-15: the Robot Diaries, Neighborhood Nets, and Robot 250. Research questions relate to creative processes in informal learning settings, use of robotics to engage diverse audiences, and changes in technological fluency after students leave the informal learning setting and apply their new knowledge and skills at home or in other learning contexts. The research incorporates data from up to 1000 program participants. Findings will establish evidence for how technological fluency can be measured, supported, and developed through informal technology learning experiences. Project deliverables include a CaLL curriculum, toolkit, new measures of audience impact, and identification of factors that support university/community collaborations. Broader impacts in informal technology education will be achieved by developing flexible toolkits that allow other communities to adapt and adopt CaLL technologies, curricula, and activities.
The project, from Indiana University Purdue University Indianapolis (IUPUI), investigates the design, development and dissemination of metaphoric aural sound symbols (audemes), audeme dictionary and riddle audeme games to teach scientific concepts to 75-100 students who are blind and visually impaired (BVI). A number of research questions are included. How do audemes and sequences function as metaphors of STEM concepts? Which audeme game structures and strategies work best to engage BVI students? How do audemes and audeme games impact STEM education? The audeme-to-concept-to-audeme dictionary will build scientific concepts using standards, state-approved science textbooks, teachers and students. They will also examine secondary words that are associated with the science concepts by mining textbooks, identifying tertiary concepts, and establishing a preliminary dictionary of audemes. A team of education, students and professionals who are experts will design the audemes after multiple iterations. A control and experimental group of students will test the audemes through traditional methods and audeme games. Students will complete a pre and post test of scientific concepts with repeated measures ANOVA to examine changes on student scores from the control and experimental groups. This work using audemes to teach scientific concepts will make contributions to BVI, learning disabilities, and general population students. Audemes and audeme games have the potential for broad implementation in both formal and informal settings for computers, mobile, and other networked platforms.
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TEAM MEMBERS:
Steven MannheimerMathew PalakalDavide Bolchini
The Nexus of Energy, Water, and Climate: From Understanding to Action (Café +) project will develop and test two interactive board game concepts focused on energy, water, and climate with youth and adults from four highly diverse communities in New Mexico. The four primary goals of the project are to: (a) develop, play test, and implement two board, card, or other non-electronic games grounded in energy, water, and climate content at four project sites, (b) identify the key characteristics of the games that maximize problem solving while stimulating interest, engagement, and learning, (c) explore the implications of game playing on dialog, learning, and Café+ satisfaction for youth and adult participants, and (d) evaluate the viability of this model for full scale implementation throughout the existing Café Scientifique program, from which this project is based. Los Alamos National Laboratory, Sandia National Laboratory, PNM Resources, Scott Balaban Games Design, the Los Alamos County Utilities Department, and a host of advisors and consultants from a broad range of organizations and institutions will collaborate to develop, test, and implement the Café+ games model. The primary deliverables include: (a) two non-electronic multiage commercial quality games focused on energy, water, and climate content, (b) a comprehensive pilot study examining the impact, effectiveness, and viability of the Café+ model with the target audiences, and (c) formative and summative evaluations of the games implementation model. A significant outcome of Café+ is that New Mexico youth and adults, from diverse backgrounds, will learn relevant science content through the development and testing of engaging, innovative commercial quality games. Over 250 youth and adults will benefit directly from their participation in the pilot study. They will not only learn important science content while working collaboratively in groups (youth only and youth/adult groups), but they will also participate in an authentic scientific process experience as playtesters. In this role, youth and adults will experience critical science concepts such as trial and error and refinement. Further, the games will be made publicly available and implemented across the entire Café Scientifique program (n=960 youth). The evaluation study will employ a mixed methods approach to examine project implementation, effectiveness, and impacts. Focus groups, observations, and surveys will be employed to assess a number of variables such as (but not limited to): content knowledge and learning, interest, engagement, game features, game play processes, gaming obstacles and challenges, participant interactions, and motivation. Embedded assessment opportunities will also examine participants\' decision making abilities, analytical skills, and ability to transfer knowledge gained to real world situations as they navigate through the games. Data collected at the youth-only pilot test sites will be used in a comparative analysis of similar variables tracked at the youth and adult sites. Formative approaches will provide iterative, ongoing opportunities for programmatic and game refinement and adjustments. The formative and summative evaluations will endeavor to document critical data and findings needed to assess the viability of Café+ as a full scale development project, with additional games and project sites across the country. The Café+ project would add to the limited literature base on learning and science engagement of youth within Science Café settings in the 21st century. More critically, this pilot study could contribute to the dearth of current research on the impact of non-electronic game play can have on youth only groups and youth/adult groups working collaboratively to make important scientific decisions within Science Café settings. This comparative data could prove significant for other program models interested in implementing similar youth and adult game based program. Further, the relevance of the content could potentially spark youths' interest not only in pursuing courses and careers in STEM, but it could also motivate youth and adult participants to become more involved in civic engagement activities occurring within and beyond their local communities.
The DISCUSS (NSF-ISE 0946691) project enabled the White Oak Institute to address a key problem facing the science museum field – the need for open-access specifications for digital technologies that can transform the capacities of museum giant screen (GS) theaters from analog to digital, as analog film becomes obsolete. DIGSS (the “Digital Immersive Giant Screen Specifications”) is an open-access, field-based set of specifications, modeled on the Digital Cinema Initiative (DCI) that converted commercial cinema from film to digital. DIGSS addresses the superior image, theater geometry and size needed for museum-quality immersive learning. Until DIGSS, there were no digital specs to address museums’ unique need for a truly immersive learning experience. As of April, 2012, DIGSS was officially transferred to the Giant Screen Cinema Association (GSCA), whose Technical Committee took over its stewardship. At least one system supplier now offers 3D and 2D giant screen digital projection systems designed specifically for DIGSS. The Peoria Riverfront Museum (opened October, 2012) included the first new DIGSS-compliant digital GS Theater (3D flat, 70’ x 52’ screen). The DISCUSS Colloquium (June 14-16, 2010, Marblehead, MA) convened experts in digital technologies, theater geometry, network economics, learning evaluation and museum leadership to develop initial consensus, resulting in the first draft of DIGSS (DIGSS 1.0). The specifications were then refined by professional comment on the DISCUSS wiki. The White Oak Institute partnered with key professional associations (GSCA, ASTC, IPS and IMERSA) to communicate DIGSS to their professional members, inviting field-wide input and review. DISCUSS collateral outcomes include: a bibliography of articles and publications related to giant screen theaters and films; a literature review of GS learning outcomes; a snapshot of the global GS theater network as of May 2010; an economic survey reporting on attendance, revenues, expenses and more; several scenarios calculating the network size needed to support the desired number of annual films; and a logic rationale that can serve as a research framework. These and other outcomes are integrated into the DISCUSS Proceedings, available with DIGSS 1.0 at http://www.whiteoakassoc.com/white-oak-institute.html.