This award is funded in whole or in part under the American Rescue Plan Act of 2021 (Public Law 117-2).
The Accessible Oceans study will design auditory displays that support learning and understanding of ocean data in informal learning environments like museums, science centers, and aquariums. Most data presentations in these spaces use visual display techniques such as graphs, charts, and computer-generated visualizations, resulting in inequitable access for learners with vision impairment or other print-related disabilities. While music, sound effects, and environmental sounds are sometimes used, these audio methods are inadequate for conveying quantitative information. The project will use sonification (turning data into sound) to convey meaningful aspects of ocean science data to increase access to ocean data and ocean literacy. The project will advance knowledge on the design of auditory displays for all learners, with and without disabilities, as well as advance the use of technology for STEM formal and informal education. The study will include 425 participants but will reach tens of thousands through the development of education materials, public reporting, and social media. The study will partner with the Smithsonian National Museum of Natural History, Woods Hole Oceanographic Institution Ocean Discovery Center, the Georgia Aquarium, the Eugene Science Center, the Atlanta Center for the Visually Impaired, and Perkins School for the Blind.
The project will leverage existing educational ocean datasets from the NSF-funded Ocean Observatories Initiative to produce and evaluate the feasibility of using integrated auditory displays to communicate tiered learning objectives of oceanographic principles. Integrated auditory displays will each be comprised of a data sonification and a context-setting audio introduction that will help to make sure all users start with the same basic information about the phenomenon. The displays will be developed through a user-centered design process that will engage ocean science experts, visually impaired students and adults (and their teachers), and design-oriented undergraduate and graduate students. The project will support advocacy skills for inclusive design and will provide valuable training opportunities for graduate and undergraduate students in human-centered design and accessibility. The project will have foundational utility in auditory display, STEM education, human-computer interaction, and other disciplines, contributing new strategies for representing quantitative information that can be applied across STEM disciplines that use similar visual data displays. The project will generate publicly accessible resources to advance studies of inclusive approaches on motivating learners with and without disabilities to learn more about and consider careers in STEM.
This Pilots and Feasibility Studies project is supported by the Advancing Informal STEM Learning program, which seeks to advance new approaches to, and evidence-based understanding of, the design and development of STEM learning in informal environments. This includes providing multiple pathways for broadening access to and engagement in STEM learning experiences, advancing innovative research on and assessment of STEM learning in informal environments, and developing understandings of deeper learning by participants.
Virtual Reality (VR) shows promise to broaden participation in STEM by engaging learners in authentic but otherwise inaccessible learning experiences. The immersion in authentic learner environments, along with social presence and learner agency, that is enabled by VR helps form memorable learning experiences. VR is emerging as a promising tool for children with autism. While there is wide variation in the way people with autism present, one common set of needs associated with autism that can be addressed with VR is sensory processing. This project will research and model how VR can be used to minimize barriers for learners with autism, while also incorporating complementary universal designs for learning (UDL) principles to promote broad participation in STEM learning. As part of its overall strategy to enhance learning in informal environments, the Advancing Informal STEM Learning (AISL) program funds innovative research, approaches, and resources for use in a variety of settings. This project will build on a prototype VR simulation, Mission to Europa Prime, that transports learners to a space station for exploration on Jupiter's moon Europa, a strong candidate for future discovery of extraterrestrial life and a location no human can currently experience in person. The prototype simulation will be expanded to create a full, immersive STEM-based experience that will enable learners who often encounter cognitive, social, and emotional barriers to STEM learning in public spaces, particularly learners with autism, to fully engage and benefit from this STEM-learning experience. The simulation will include a variety of STEM-learning puzzles, addressing science, mathematics, engineering, and computational thinking through authentic and interesting problem-solving tasks. The project team's learning designers and researchers will co-design puzzles and user interfaces with students at a post-secondary institute for learners with autism and other learning differences. The full VR STEM-learning simulation will be broadly disseminated to museums and other informal education programs, and distributed to other communities.
Project research is designed to advance knowledge about VR-based informal STEM learning and the affordances of VR to support learners with autism. To broaden STEM participation for all, the project brings together research at the intersection of STEM learning, cognitive and educational neuroscience, and the human-technology frontier. The simulation will be designed to provide agency for learners to adjust a STEM-learning VR experience for their unique sensory processing, attention, and social anxiety needs. The project will use a participatory design process will ensure the VR experience is designed to reduce barriers that currently exclude learners with autism and related conditions from many informal learning opportunities, broadening participation in informal STEM learning. Design research, usability, and efficacy studies will be conducted with teens and adults at the Pacific Science Center and Boston Museum of Science, which serve audiences with autism, along with the general public. Project research is grounded in prior NSF-funded research and leverages the team's expertise in STEM learning simulations, VR development, cognitive psychology, universal design, and informal science education, as well as the vital expertise of the end-user target audience, learners with autism. In addition to being shared at conferences, the research findings will be submitted for publication to peer-reviewed journals for researchers and to appropriate publications for VR developers and disseminators, museum programs, neurodiverse communities and other potentially interested parties.
This Innovations in Development award reflects NSF's statutory mission and has been deemed worthy of support through evaluation using the Foundation's intellectual merit and broader impacts review criteria.
DATE:
-
TEAM MEMBERS:
Teon EdwardsJodi Asbell-ClarkeJamie LarsenIbrahim Dahlstrom-Hakki
Supported by the National Science Foundation, the Global Soundscapes! Big Data, Big Screens, Open Ears project employs a variety of informal learning experiences to present the physics of sound and the new science of soundscape ecology. The interdisciplinary science of soundscape ecology analyzes sounds over time in different ecosystems around the world. The major components of the Global Soundscapes project are an educator-led interactive giant-screen theater show, group activities, and websites. All components are designed with both sighted and visually impaired students in mind. Multimedia
Creating Museum Media for Everyone is an NSF-funded collaborative project of the Museum of Science, the WGBH National Center for Accessible Media, Ideum, and Audience Viewpoints, to further the science museum field's understanding of ways to research, develop, and evaluate digital interactives that are inclusive of all people. As a part of this effort to enable museums to integrate more accessible media into their exhibits to make them more welcoming and educational for visitors with disabilities as well as general audiences, this paper provides an overview of approaches to media accessibility
The proposal intends to develop software that, when combined with the OMNI device, produces a virtual touch sensation that allows the blind to "touch" surfaces such as Mars, Earth's Moon, etc. The experience is multimedia as users can get sight, sound, and touch at the same time. The proposal does a solid job of describing a well-constructed and well-designed plan. The collaborative group works to bring together a strong body of STEM material, a highly skilled project team, and a diverse audience to assess the material. The team brought together to implement the proposal is a good one and includes the Institute for Scientific Research, NASA IV and V Independent Verification and Validation, Facility Educator Resource Center, Alderson Broadus College, Davis & Elkins College, and the West Virginia Schools for the Deaf and Blind. Although NASA is a project partner, the reviewers encourage the project proposer to continue building direct NASA funding. For example, a NASA space grant may be a good dissemination vehicle in the future. Reviewers were impressed with the various project elements: the mobile unit, pre- and post- standards based lessons, hypothesis testing with immediate feedback. The evaluation and dissemination plans provide for effective and immediate impact on a statewide and national level. The project provides for broader impact as the multi-media tools will be of assistance to other groups of students with disabilities as well.
DATE:
-
TEAM MEMBERS:
Marjorie DarrahPatricia HarrisSharmistha RoyAmy BlakeRebecca Giorcelli
Given its ongoing commitment to universal design and the integration of technologies into the museum experience, the Museum of Science decided to employ a handheld Multimedia Tour to accompany Star Wars: Where Science Meets Imagination, an exhibition about the real world meeting Star Wars technologies. With the help of leading tour guide developer, Antenna Audio, a 22-stop tour was produced featuring narration, Behind the Scenes interviews with individuals who had worked on the films, Star Wars film clips, still photos and the ability to send information home. An American Sign Language version
This proof-of-concept project is a collaboration of the Museum of Science in Boston, WGBH's National Center for Accessible Media (NCAM) and Ideum. The project will demonstrate that the project team can design and develop digital interactive museum exhibit devices that work for visitors who have a wide range of disabilities. The outcome will be one "exemplar" exhibit based on an exhibit scenario where museum visitors learn STEM concepts by manipulating and analyzing real data. The project will also develop and test the efficacy of a prototype Do-It-Yourself (DIY) Toolkit that will help other museum professionals implement the digital interactive strategies. In addition, the project will produce a white paper on the specific exemplar and a research paper with guidelines for digital interactive exhibits in museum. The project uses an innovative workshop approach that brings together individuals from a diverse range of fields to develop the digital interactive strategies. After developing the "exemplar" exhibit, the team will develop the DIY Toolkit and test the efficacy of the Toolkit in museums that do not have the same level of exhibit development resources as larger institutions. The the project's evaluation will not only determine if the exemplar works well with a wide range of people with disabilities, but also determine the cost-effectiveness and efficacy of the workshop strategy and the ability of other museums to use the DIY toolkit. If successful, this project will attend to an area of high need in the informal science education (ISE) museum exhibit community and provide a resource that will serve a wide range of ISE institutions. If the project evaluation outcomes are positive, the project will lead to a larger effort to develop more exemplar exhibits based on different scenarios and an expansion of the DIY Toolkit.