The project will develop and research how an emerging technology, immersive virtual reality (IVR) using head mounted displays (HMDs), can enhance ocean literacy and generate empathy towards environmental issues. Recent advances in design have resulted in HMDs that provide viscerally realistic and immersive experiences that situate participants in underwater or other remote environments. IVR can provide many people with virtual access to these environments, including persons with disabilities, people living away from coastal areas, or those who lack access for other reasons (e.g., low-income families, underserved/underrepresented communities, persons untrained in diving). The project will develop a high quality 360-degree underwater film that includes live action footage, animation, and interactive elements. The IVR experience will take the participant through an immersive underwater journey of a Pacific reef, using realistic visualizations, narrative, and a compelling story to engage participants in learning the ecology and biology of coral reefs, as well as the impacts of climate change and human disturbances on ocean ecosystems. In addition to the IVR ocean journey, the project will integrate interactive functionality of being on a reef during mass coral spawning, an annual natural phenomenon through which coral reefs replenish their populations. With hand-held controllers, participants will be able to "swim" through the water, watch the degraded reef recover and grow and will have the ability to change the rate of coral recovery and learn how increases in temperature impede coral recovery. While research has been conducted on early, desk-top versions of IVR, the potential impact of IVR on learning is still unclear. The research findings will help guide the development of IVR for use in informal STEM environments such as aquariums, zoos, science museums, and others. The IVR experience will be shared on online platforms for home viewing, at film festivals and conferences, and in informal learning environments.
The project addresses the need for research on the impacts of IVR devices as it become more affordable and more widely used at home and in other informal and formal environments. Few studies have investigated how design elements impact the user in IVR, in which the increased immersion affects the stimuli perception and cognitive processing. The research will assess the learning affordances and impacts of the IVR experience on participant ocean literacy (adapting items from an existing ocean literacy survey), environmental empathy/feelings of presence (naturalistic observations and post-experience interviews), and perceived self-efficacy (pre-post survey, post-interview interviews). In addition, the project will research how segmentation (i.e., a continuous experience vs. an experience with breaks), generative learning tasks (hands-on experiences and interactive during IVR), and gender of the narrator in an IVR experience supports learning about ocean environments. Researchers will collect data from students attending high schools with predominantly minority student enrollments. Research findings will be widely shared through peer-reviewed publications, conference presentations, and publications for educators and designers.
This project is funded by the National Science Foundation's (NSF's) Advancing Informal STEM Learning (AISL) program, which supports innovative research, approaches, and resources for use in a variety of learning settings.
This project creates a pilot program to deliver ocean literacy learning opportunities to 7 million people across the country through installation of dynamic Ocean Interpretive Stations at five Coastal America Coastal Ecosystem Learning Centers: the Aquarium of the Pacific in Long Beach, CA; the J.L.Scott Marine Education Center in Ocean Springs, MS; the John G. Shedd Aquarium in Chicago, IL; the National Aquarium in Baltimore, MD; and the National Mississippi River Museum & Aquarium in Dubuque, IA. These Interpretive Stations present vital messages of ocean literacy to the broad public using and expanding on a proven product in a free choice learning environment in four key sites across the country. The pilot kiosks provide the regional stories of Chesapeake Bay and the Atlantic, the Great Lakes, the Mississippi River watershed and the Gulf of Mexico, and the Pacific. The Ocean Interpretive Stations enhance ocean literacy among museum goers through multimedia offerings, providing current, newsworthy and foundational ocean topics to encourage visitor learning. The project has the potential to be disseminated to 18 other Coastal Ecosystem Learning Centers throughout the United States, with the possibility of reaching over 25 million visitors. The project outcomes are: Increased awareness of ocean issues on the part of visitors; increased knowledge of regional ocean issues; increased capacity of sites to provide additional resources to teachers in the four regions; and encouragement of additional partnerships in the future.
National Science Foundation (NSF) awarded an Informal Science Education (ISE) grant, since renamed Advancing Informal STEM Learning (AISL) to a group of institutions led by two of the University of California, Davis’s centers: the Tahoe Environmental Research Center (TERC) and the W.M. Keck Center for Active Visualization in Earth Sciences (KeckCAVES). Additional partner institutions were the ECHO Lake Aquarium and Science Center (ECHO), Lawrence Hall of Science (LHS) at the University of California, Berkeley, and Audience Viewpoints Consulting (AVC). The summative evaluation study was
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.
Museums are increasingly engaging with their communities in understanding and addressing the complex questions of our society. How is this effort manifested in museum practice, and what is the impact of this work? Our study attempted to explore the boundaries of these questions by reviewing and synthesizing reports on InformalScience.org. The work was part of the NSF-funded Building Informal Science Education project (BISE). We selected a small set of reports of projects that aligned with our definition of social issues as conditions that are harmful to society, complex and characterized by a
The National Science Foundation (NSF) awarded an Informal Science Education (ISE) grant, since renamed Advancing Informal STEM Learning (AISL) to a group of institutions led by two of the University of California, Davis’s centers: the Tahoe Environmental Research Center (TERC) and the W.M. Keck Center for Active Visualization in Earth Sciences (KeckCAVES). The purpose of the evaluation was to gather feedback from museum professionals and the general public about the proposed 3D visualization project and its related components. Additionally, the study aimed to assess the current understanding
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TEAM MEMBERS:
University of California, DavisSteven Yalowitz
In this article, researchers from Jacksonville State University and the Center for Social Design discuss a study that attempted to use questions as label-reading prompts in a new way. Questions were written on a sheet of paper and made available as a handout to visitors at the Birmingham Zoo and Anniston Museum of Natural History. The answers to the questions could be found in the exhibit labels.
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TEAM MEMBERS:
Stephen BitgoodDonald PattersonArlene Benefield
resourceprojectProfessional Development, Conferences, and Networks
The Museum of Life and Science will use this planning grant to bring together zoo, botanical garden, and science center professionals to a) assess the feasibility of an "interactive zoo," b) identify animals species that exhibit behaviors in a zoo environment that provide natural opportunities for related interactive exhibits, and c) generate a White Paper reviewing relevant exhibits in zoos and science centers and proposing design criteria for the interactive exhibits. The planning activities include: the development of a "White Paper" that will include a review of key research findings in developmental psychology and visitor behavior as they apply to playgrounds, zoos, and interactive exhibit environments, an overview of relevant exhibit techniques and technologies, and case studies of existing exhibits; a 2-day meeting to discuss the issues; and travel to exemplary museums, zoos, aquaria, and botanical gardens. These results will be used in the development of interactive exhibits in an outdoor setting included in the museum's Master Plan 2000. They have proposed the analogy of a field research station in their approach to learning in an outdoor setting. They envision three thematic "field stations": "Down to Earth," "Watery Worlds," and "Catch the Wind." The specific exhibit plans will be finalized after the completion of the planning grant. Although the Museum of Life and Science will be the primary beneficiary of this planning activity, the background information gathered, the issues discussed, and the critical appraisals will be relevant to other museums with and interested in developing exhibits in an out-of-door setting. The results will be broadly disseminated by means of publications and presentations at professional meetings.
This article offers new research to the discussion about the role of museums in the context of changing society. The authors hoped to add to the community discourse by sharing how they promoted and recognized visitor action in their museums. The article examines the Social Diffusion of Ideas by John Fraser, the COURAGE project by Tom Hanchett, and Time's Running Out - Act Now by Jon Deuel and Jenny Sayre Ramberg.
The Ocean Institute will design, develop, evaluate and install "Sea Floor Science," a 5,200 sq. ft. site-wide exhibition designed in partnership with Scripps Institution of Oceanography, the Jet Propulsion Laboratory, and the Institute of Nautical Archaeology at Texas A&M University. "Sea Floor Science" will provide opportunities for families, students and the general public to use authentic oceanographic equipment, tools and technology to recreate a world of ocean research and discovery. Visitors will experience how oceanographers are exploring the largely unknown sea floor to permit better understanding of the origin of sediments and rocks, paleoclimate reconstruction as evidenced by marine microfossils, and the dynamics of oceanic lithospheres and margins. The project is a new approach to museum exhibits. It will test innovative convertibility solutions that enable public areas to serve as both teaching stations and effective exhibits. It will also implement cost-effective update strategies to keep visitors at the forefront of scientific research. "Sea Floor Science" will reach 4,000,000 people in 22 states including on-site and on-line visitors, multi-state teacher networks, videoconferencing participants, science professionals, and replication sites at science centers and aquaria nationally.