Living Liquid will identify strategies for creating visualization tools that can actively engage the public with emerging research about the ocean's microbes and their impact on our planet. It addresses a critical issue for the ISE field: creating ways for visitors to ask and answer their own questions about emerging areas of science with visualizations. This Pathway project will provide important lessons learned for a future full-scale development project at the Exploratorium's new location over San Francisco Bay, and for informal science educators and other professionals working to create interactive visualization tools using the vast data sets now available. Living Liquid is a collaboration between developers, educators and learning researchers at the Exploratorium, computer scientists at the Visualization Interface and Design Innovation Group at UC Davis, and marine scientists at the Center for Microbial Oceanography Research and Education. The project's research and development process includes a front-end study of visitors' interests and prior knowledge related to ocean microbes, interviews with scientists to identify potential datasets and activities, a survey of candidate visualizations, and a series of prototypes to identify promising strategies to engage visitors with and allow visitors to explore large scientific datasets through visualization tools.
This pathways project would refine and test a game based on the Kinect technology gaming tool to teach seismology concepts in an informal education setting and how they apply to phenomenon in other STEM fields. The game will be developed as a companion tool to the "Quake Catcher Network" a low-cost network of seismic sensors in schools, homes and offices world-wide and tie-ins with seismology programs such as the great California ShakeOut with a participant base of 8.6 million. The project design would select three new learning modules, chosen by a group of scientists and educators, to incorporate into the game and evaluate player experience and knowledge gain. The activities will be conducted at a partner test site, an aquarium, frequented by area youth 8 - 12 years old. The focus of the effort is to add to the knowledge of how gaming can be used effectively in informal learning environments The game places the player as a scientist, allowing the player to make decisions about seismic station deployment strategies following an earthquake, installing the sensors and monitoring incoming data. The game has levels of difficulty and players accrue points by acting swiftly and correctly. Learning goals for the project include making abstract math concepts understandable; involve participants in data collection and the process of scientific investigation, plus demonstrate how scientists and mathematicians use tools of their fields to address real-world issues.
The University of Southern California (USC) will build on prior work to test a robust model for assessing player content engagement and social interactions within an augmented reality game (ARG). In partnership with No Mimes Media, USC will use machine learning algorithms to make automated player inferences to customize game play. The content focus of the game will span a range of STEM disciplines, with a special emphasis on earth science content and scientific investigation & experimentation reasoning. High school youth from underserved communities in Los Angeles will be recruited to participate in the endeavor. This pathways project will use various "rabbit hole" techniques to attract freshmen and sophomore students from partner charter schools to the online game. The rabbit hole strategies may include cryptic posters, inquisitive signs, & SQR codes strategically placed in plain and open view of the target group. The game will be fully accessible to the target group online. During the ARG experience, youth players will encounter STEM concepts and scientific problems. Antagonistic characters will promulgate scientific misconceptions and nonscientific reasoning and challenge players to employ their scientific knowledge and skills to level-up, gain badges, and move through the game. As game play persists, machine learning algorithms will gather data on the players learning competencies and social interactions within the game. These data will be aggregated and analyzed to assess learning and interactions within the ARG environment. Additional analyses will be conducted by the mixed methods approach the external evaluation group, CRESST, will employ for the project formative and summative evaluations. Approximately 300 youth, within the target grade levels, are expected to participate in the gaming experience. However, given that access to the game and assessment tools will expand beyond the target group, the potential reach of the project could be much greater. Further, the stated aim of the project is not only to produce a scalable model for broad implementation but it also endeavors to provide puppetmasters with research and assessment tools to create more individualized experiences and improved learning outcomes for players within ARG environments.
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TEAM MEMBERS:
Yu-Han ChangJihie KimRajiv Maheswaran
The University of California, Davis Tahoe Environmental Research Center (TERC), UC Davis W.M. Keck Center for Active Visualization in the Earth Sciences (KeckCAVES), ECHO Lake Aquarium and Science Center (ECHO), UC Berkeley Lawrence Hall of Science (LHS), and the Institute for Learning Innovation (ILI) will study how 3-D visualizations can most effectively be used to improve general public understanding of freshwater lake ecosystems and Earth science processes through the use of immersive three-dimensional (3-D) visualizations of lake and watershed processes, supplemented by tabletop science activity stations. Two iconic lakes will be the focus of this study: Lake Tahoe in California and Nevada, and Lake Champlain in Vermont and New York, with products readily transferable to other freshwater systems and education venues. The PI will aggregate and share knowledge about how to effectively utilize 3-D technologies and scientific data to support learning from immersive 3-D visualizations, and how other hands-on materials can be combined to most effectively support visitor learning about physical, biological and geochemical processes and systems. The project will be structured to iteratively test, design, and implement 3-D visualizations in both concurrent and staggered development. The public will be engaged in the science behind water quality and ecosystem health; lake formation; lake foodwebs; weather and climate; and the role and impact of people on the ecosystem. A suite of publicly available learning resources will be designed and developed on freshwater ecosystems, including immersive 3-D visualizations; portable science stations with multimedia; a facilitator's guide for docent training; and a Developer's Manual to allow future informal science education venues. Project partners are organized into five teams: 1) Content Preparation and Review: prepare and author content including writing of storyboards, narratives, and activities; 2) 3-D Scientific Visualizations: create visualization products using spatial data; 3) Science Station: plan, design, and produce hands-on materials; 4) Website and Multimedia: produce a dissemination strategy for professional and public audiences; 4) Evaluation: conduct front-end, formative, and summative evaluation of both the 3-D visualizations and science activity stations. The summative evaluation will utilize a mixed methods approach, using both qualitative and quantitative methods, and will include focus groups, semi-structured interviews, web surveys, and in-depth interviews. Leveraging 3-D tools, high-quality visual displays, hands-on activities, and multimedia resources, university-based scientists will work collaboratively with informal science education professionals to extend the project's reach and impact to an audience of 400,000 visitors, including families, youth, school field trip groups, and tourists. The project will implement, evaluate, and disseminate knowledge of how 3-D visualizations and technologies can be designed and configured to effectively support visitor engagement and learning about physical, biological and geochemical processes and systems, and will evaluate how these technologies can be transferred more broadly to other informal science venues and schools for future career and workforce development in these critical STEM areas.
In partnership with the University of Pennsylvania's Graduate School of Education, The Franklin Institute Science Museum will develop, test, and pilot an exportable and replicable cyberlearning exhibit using two cutting edge technologies: Augmented Reality (AR) and Virtual Reality (VR). The exhibit's conceptualization is anchored in the learning research vision of the NSF-funded workshop Cyberinfrastructure for Education and Learning for the Future (Computing Research Association, 2005). The incorporation of VR and AR technologies into the Franklin Institute's electricity and Earth science exhibits is an innovation of traditional approaches to hands-on learning and will improve the quality of the learning experience for the primary audience of families with children and elementary school groups. The project has implications for future exhibit development and more broadly, will provide new research on learning on how to incorporate cyberlearning efforts into traditional exhibits. Fifteen participating exhibit developers across the ISE field will assist in the evaluation of the new exhibit; receive training on the design and development of VR and AR exhibits for their institutions; and receive full access to the exhibit's new software for implementation at their informal learning sites. The technology applications will be developed by Carnegie Mellon University's Entertainment Technology Center--leaders in the field in Virtual Reality design and development. Front-end and formative evaluation will be overseen internally by the Franklin Institute. The Institute for Learning Innovation will conduct the summative evaluation. Research will be conducted by the University of Pennsylvania's Graduate School of Education on the effects of AR and VR technologies on exhibit learning.
The Children’s Museum developed From the Blue Planet to the Red Planet: Exploring Planetary Science to provide opportunities for students in grades 4 through 8, teachers, and families to learn about Mars exploration. The Museum partnered with the Connecticut Center for Advanced Technology (CCAT) on four teacher professional development modules related to aspects of planetary science: soil and plant study, air pressure, robotic exploration, and the comparison of Mars and Earth. Teachers who attended free workshops could bring students to the Museum for classroom and planetarium experiences. The Museum received support from Central Connecticut State University and technical advice from Phoenix Project scientists at JPL. The Museum created a timeline of Mars exploration history with video clips of milestones and an accompanying quiz kiosk. CCAT created virtual Mars drive-through experiences with which visitors could explore the planet. The Travelers ScienceDome Planetarium staff wrote, directed, and animated a full-dome planetarium program about the future study of Mars that was finished in December 2012. For over two years the Museum has sponsored free, monthly Mars Madness programs during which the general public can visit the exhibit, see a Mars-related planetarium program, and test out some of the hands-on activities developed for the school groups. The Museum hoped to reach a diverse audience, especially, those people who might otherwise not afford admission. We have produced four teacher professional development guides with hands-on activities, an exhibit for our facility, a dedicated website, and a planetarium program.
Funded jointly by the Institute of Museum and Library Services (IMLS) and the MacArthur Foundation, in partnership with the and Association of Science-Technology Centers (ASTC) and Urban Libraries Council (ULC), Learning Labs in Libraries and Museums supports the planning and design of 24 learning labs in libraries and museums nationwide. The inaugural cohort of 12 sites ran from January 2012 to June 2013, and a second cohort of 12 additional sites began in January 2013 and will extend through June 2014. In addition to the primary awardees, most grants included additional institutional partners, resulting in a rich community including over 100 professionals from approximately 50 participating organizations (libraries, museums, universities, and community-based organizations). The labs are intended to engage middle- and high-school youth in mentor-led, interest-based, youth-centered, collaborative learning using digital and traditional media. Inspired by YOUmedia, an innovative digital space for teens at the Chicago Public Library, as well as innovations in science and technology centers, projects participating in Learning Labs are expected to provide prototypes for the field based on current research about digital media and youth learning, and build a "community of practice" among the grantee institutions and practitioners interested in developing similar spaces.
The overarching purpose of the Climate Literacy Zoo Education Network is to develop and evaluate a new approach to climate change education that connects zoo visitors to polar animals currently endangered by climate change, leveraging the associative and affective pathways known to dominate decision-making. Utilizing a polar theme, the partnership brings together a strong multidisciplinary team that includes the Chicago Zoological Society of Brookfield, IL, leading a geographically distributed consortium of nine partners: Columbus Zoo & Aquarium, OH; Como Zoo & Conservatory, St. Paul, MN; Indianapolis Zoo, IN; Louisville Zoological Garden, KY; Oregon Zoo, Portland, OR; Pittsburgh Zoo & PPG Aquarium, PA; Roger Williams Park Zoo, Providence, RI; Toledo Zoological Gardens, OH, and the organization Polar Bears International. The partnership leadership includes the Learning Sciences Research Institute at the University of Illinois at Chicago, and the Earth System Science Center at Pennsylvania State University. The partnership is joined by experts in conservation psychology and an external advisory board. The primary stakeholders are the diverse 13 million annual visitors to the nine partner zoos. Additional stakeholders include zoo docents, interpreters and educators, as well as the partnership technical team in the fields of learning innovations, technological tools, research review and education practice. The core goals of the planning phase are to a) develop and extend the strong multidisciplinary partnership, b) conduct research needed to understand the preconceptions, attitudes, beliefs, and learning modes of zoo visitors regarding climate change; and c) identify and prototype innovative learning environments and tools. Internal and external evaluations will be conducted by Facet Innovations of Seattle, WA. Activities to achieve these goals include assessments and stakeholder workshops to inventory potential resources at zoos; surveys of zoo visitors to examine demographic, socioeconomic, and technology access parameters of zoo visitors and their existing opinions; and initial development and testing of participatory, experiential activities and technological tools to facilitate learning about the complex system principles underlying the climate system. The long-term vision centers on the development of a network of U.S. zoos, in partnership with climate change domain scientists, learning scientists, conservation psychologists, and other stakeholders, serving as a sustainable infrastructure to investigate strategies designed to foster changes in public attitudes, understandings, and behavior surrounding climate change.
Presentation on NSF grant DRL-1011086 (""The Nexus of Energy, Water, and Climate: From Understanding to Action"") presented at the CAISE Convening on Sustainability Science and Informal Science Education, February 6th, 2012.
This full-scale development project would use a multi-platform approach (TV, Field School, and Web site) to engage public audiences and underserved youth in archaeology research and discovery. The project will advance knowledge and practice in the field of ISE by establishing the utility of archaeology as an entry point to multiple STEM fields showing how it answers important questions about human origins-culture, history, and the natural environment. The target audience includes a broad demographic of viewers who will watch the PBS broadcasts. The other key audience is underserved youth who will participate in the archeology digs and be featured in the national broadcast. They will engage other underserved youth who will have the opportunity to participate in the interactive online virtual field school. Primary organizational partners include the Crow Canyon Archaeology Center in Colorado and other archeology organizations at the 4 field sites. Deliverables include four hours of PBS programming filmed at four archaeological sites telling the stories of diverse cultures (Native American, African American, Hispanic); field schools designed for underrepresented youth both onsite and online; blogs, online discussions, and user-generated videos. The evaluation will determine the impact of the television series, online content, and the on-site Field School on audiences' understanding of, interest in, and interactions around STEM topics within the context of archaeology. Formative evaluation will provide input and help refine the television programs, web site, and field school. The summative evaluation will use a variety of methods and artifacts to determine the degree to which the process of the TV series, web site, and Field School was successful. The television programs are expected to reach 13 million viewers via broadcast, 300,000 via streaming video and 50,000 unique web site visitors. The lessons learned from this project will be disseminated to other media and ISE organizations.
MIT Education Arcade, in partnership with the Smithsonian Institution, designed and developed Vanished, an eight-week environmental science game as a new genre called the curated game, a hybrid of museum-going, social networking, and online gaming. Middle school aged participants engaged in Earth systems science to study a range of environmental issues associated with mass extinction. Though the game was structured around a fictional scenario--communication with visitors from the future--it posited a future affected by current environmental issues and conditions, and encouraged participants to apply systems thinking as a means to understand how these current conditions led to environmental disruptions. As part of the game play participants studied, applied, and integrated knowledge and skills from multiple sources, including Earth science, ecology, astronomy, and archaeology, and forensic anthropology. An Advisory Board and contributing scientists were be involved. The project team is currently analyzing data collected from the game to test the hypothesis that the game play would allow youth, ages 11-14, to increase their understanding of the scientific process and increase their motivation to learn more science. This summative evaluation is being conducted by TERC Inc. A Curated Game Handbook will be produced to disseminate project results as a model for new applications of game-based learning. Open source software created as part of the game has been made available, and should enable future developers in informal science education to build directly upon these foundational efforts.
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TEAM MEMBERS:
Eric KlopferConrad LabandeiraScot OsterweilStephanie Norby
This project will develop a comprehensive Space Weather Outreach program to reach students, educators, and other members of the public, and share with them the discoveries from this scientific discipline. The Space Science Institute will capitalize on its prior successes and the success of other education programs to develop a comprehensive and integrated program that has the following five components: (1) the Space Weather Center website that includes online educational games; (2) Small Exhibits for Libraries, Shopping Malls, and Science Centers; (3) After-School Programs; (4) Professional Development Workshops for Educators, and (5) an innovative Evaluation and Education Research project. Its overarching goal is to inspire, engage, and educate a broad spectrum of the public and make strategic and innovative connections between informal and K-12 education communities. Partners include UC Berkeley's Space Sciences Laboratory; the American Library Association; Macerich: a mall developer with nationwide impact; and the Math, Engineering, Science Achievement program. The project brings together a creative collaboration between exhibit designers, graphic artists, formal/informal educators, and research scientists. The project spans a full spectrum of science communication strategies (formal, informal, and public outreach). The evaluation part of the project will examine how well the project elements work together and a pilot research study will explore the efficacy of online digital games for communicating complex space weather content. Results will be published and the findings presented at professional meetings and online. The three-year project is expected to impact well over two million people, including exhibit and website visitors and outreach visitors at various venues such as libraries and malls.