Over a three-year period, the Lawrence Hall of Science will conduct research on the conversations of groups and families encountering an Augmented Reality (AR) experience in a museum environment. The research program will identify which design elements best facilitate conversations among groups of visitors, and determine if these conversations are both rich in scientific content and gender-balanced. The project will focus on four specific activities: understanding the learning associated with current AR activities, implementing design-based research to develop visitor conversation supports, designing and developing new AR programs with embedded conversation supports, and conducting iterative hypothesis-based research on how learning conversations happen in AR learning environments. The museum community will gain insights on design principles for supporting collaborative learning using AR. Project staff will disseminate results via conference workshops for museum professionals on designing AR to enhance family learning, and through publication in professional journals.
The Harvard Museums of Science and Culture will improve the ability of middle school teachers to use museum-based digital resources to support classroom instruction aligned with state and national science standards. Working with advisory teachers from five collaborating school districts, the museum will co-create classroom activities, based on digital resources from its collections, along with associated teacher professional development programs at three sites across urban and rural Massachusetts. The project will provide schools with access to classroom-ready resources that successfully support student learning. Teachers will learn how to use these materials, integrate them into their teaching, and enhance their skills to teach science content and practice. External evaluators will assess the project's effectiveness by measuring teacher implementation of the digital resources in the classroom, requests for information and assistance, and changes in teachers' confidence and comfort levels.
The Discovery Center at Murfree Spring will partner with Mid-Cumberland Head Start to launch the SPARK! Head Start program to reach under-resourced early learners, families, and teachers in Rutherford County, Tennessee. Building on its successful STEM programming that integrates science with children's books, the museum will increase connections between science and literacy skills for 132 pre-K children ages three to five, and enhance the capacity of 16 teachers and two administrators within Rutherford County. Head Start will integrate and embed literacy and science process skills through hands-on STEM activities linked to children's literature and best practices. The project will also include programming designed to increase family engagement in STEM at the museum and at partnering Head Start centers.
The Arboretum at Flagstaff will complete an interactive outdoor exhibition to provide relevant and science-based climate change information to its northern Arizona audience, as well as visitors from throughout the state. Project activities include the addition of three kiosks to the climate change exhibition; developing standards-based curriculum guides for educators to assist them with both onsite and classroom instruction for students in grades 6-8; and the development of new webpage interfaces designed to make data files and curriculum guides readily available. The climate change center will engage students and general audiences in the STEM components of real-time climate change research, interpretation, and mitigation.
Hero Elementary is a transmedia educational initiative aimed at improving the school readiness and academic achievement in science and literacy of children grades K-2. With an emphasis on Latinx communities, English Language Learners, youth with disabilities, and children from low-income households, Hero Elementary celebrates kids and encourages them to make a difference in their own backyards and beyond by actively doing science and using their Superpowers of Science. The project embeds the expectations of K–2nd NGSS and CCSS-ELA standards into a series of activities, including interactive games, educational apps, non-fiction e-books, hands-on activities, and a digital science notebook. The activities are organized into playlists for educators and students to use in afterschool programs. Each playlist centers on a meaningful conceptual theme in K-2 science learning.
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TEAM MEMBERS:
Joan FreeseMomoko HayakawaBryce Becker
This Smart and Connected Community (SCC) project will partner with two rural communities to develop STEMports, an innovative Science, Technology, Engineering and Mathematics (STEM) learning game for workforce development. The game's activities will take players on localized Augmented Reality (AR) missions to both engage in STEM learning challenges and discover emerging STEM careers in their community, specifically highlighting innovations in the fields of sustainable agriculture and aquaculture, forest products, and renewable energy. Community Advisory Teams (CATs) and co-design teams, including youth, representatives from the targeted emerging STEM economies, and decision-makers will partner with project staff to co-design STEMports that reflect the interests, cultural contexts, and envisioned STEM industries of the future for each community.
The project will: (a) design and pilot an AR game for community STEM workforce development; (b) develop and adapt a community engagement process that optimizes community networking for co-designing the gaming application and online community; and (c) advance a scalable process for wider applications of STEMports. This project is a collaboration between the Maine Mathematics and Science Alliance and the Field Day Lab at the University of Wisconsin-Madison to both build and research the co-designing of a SCC based within an AR environment. The project will contribute knowledge to the informal STEM learning, community development, and education technology fields in four major ways:
Deepening the understanding of how innovative technological tools support rural community STEM knowledge building as well as STEM identity and workforce interest.
Identifying design principles for co-designing the STEMports community related to the technological design process.
Developing social network approaches and analytics to better understand the social dimensions and community connections fostered by the STEMport community.
Understanding how participants' online and offline interactions with individuals and experiences builds networks and knowledge within a SCC.
With the scaling of use by an ever-growing community of players, STEMports will provide a new AR-based genre of public participation in STEM and collective decision making. The research findings will add to the emerging literature on community-wide education, innovative education technologies, informal STEM learning (especially place-based learning and STEM ecosystems), and participatory design research.
This 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.
Development of an online interactive exhibition of patient and medical practitioner testimonials from six to eight Central Texas communities.
Communities of Care: Documenting Voices of Healing and Endurance is a community-based multimedia storytelling project focusing on illness and healthcare narratives. This project will generate and curate its own archive by asking participants to produce narratives through writing, photography, video, and oral histories.
Production of an immersive website exploring the history, culture, and archaeology of the Giza plateau.
The Giza Project at Harvard University plans to build the full-scale version of its forthcoming public website, Digital Giza. Using the tools of the future to study the past, this free online resource will integrate diverse primary documentation from over 100 years of international archaeological research in Egypt with a scientifically-informed 3D immersive computer model of the whole Giza Plateau, including the pyramids, temples, settlements, and surrounding cemeteries. Through various “digital archaeology experiences,” visitors to the site will engage with new forms of interpretation and story-telling based on Giza materials digitally embedded and clearly contextualized in their original spatial settings. The Giza Project’s ultimate deliverable will be a powerful new online education and research tool for the world community at all levels of expertise: an interactive website and virtual environment encouraging exploration into Egyptological, historical, and broader humanities themes.
The goal of this project is to promote informal STEM education in polar research through a novel interactive learning display that uses virtual and augmented reality technology. A new display system will be developed that combines the successful techniques of touch-enabled tabletop displays with new low-cost, head-mounted display technology to deliver an immersive 3D learning experience for the IceCube Neutrino Detection system located at the South Pole. The system will provide new means for engaging the public in learning about the IceCube Neutrino Dectection system and the challenges of Antarctic research.
The proposal relies on collaboration between three groups on the University of Wisconsin- Madison campus, including the Living Environments Laboratory (LEL), the Wisconsin IceCube Particle Astrophysics Center (WIPAC), and the Games Learning Society (GLS). Once developed, the display system will be installed at the Wisconsin Institutes for Discovery Town Center, a public space that attracts close to 50,000 people per year. This proposal was submitted as an Exploratory Pathways proposal, meaning that it represents a chance to establish the basis for future research, design, and development of innovations or approaches. Outcomes from this project will inform the PIs of how best to extend the system to add more 3D environments for other research locations in Antarctica. The system will be implemented in an extensible fashion so that a user can select from one of several Antarctic research station locations, not just IceCube, from the main menu of the system and suddenly be immersed in a 3D world that seeks to teach users about polar research at that location. Contents of the interactive learning display will be translated into Spanish, and users will be able to choose which language they want to use. Evaluations of the system will also inform designers about how these museum-type systems impact learning outcomes for the general public.
This project was submitted to the Advancing Informal STEM Learning (AISL) program, but will be funded by the Division of Polar Programs. AISL 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.
This INSPIRE award is partially funded by the Cyber-Human Systems Program in the Division of Information and Intelligent Systems in the Directorate for Computer Science and Engineering, the Gravitational Physics Program in the Division of Physics in the Directorate for Mathematical and Physical Sciences, and the Office of Integrative Activities.
This innovative project will develop a citizen science system to support the Advanced Laser Interferometer Gravitational wave Observatory (aLIGO), the most complicated experiment ever undertaken in gravitational physics. Before the end of this decade it will open up the window of gravitational wave observations on the Universe. However, the high detector sensitivity needed for astrophysical discoveries makes aLIGO very susceptible to noncosmic artifacts and noise that must be identified and separated from cosmic signals. Teaching computers to identify and morphologically classify these artifacts in detector data is exceedingly difficult. Human eyesight is a proven tool for classification, but the aLIGO data streams from approximately 30,000 sensors and monitors easily overwhelm a single human. This research will address these problems by coupling human classification with a machine learning model that learns from the citizen scientists and also guides how information is provided to participants. A novel feature of this system will be its reliance on volunteers to discover new glitch classes, not just use existing ones. The project includes research on the human-centered computing aspects of this sociocomputational system, and thus can inspire future citizen science projects that do not merely exploit the labor of volunteers but engage them as partners in scientific discovery. Therefore, the project will have substantial educational benefits for the volunteers, who will gain a good understanding on how science works, and will be a part of the excitement of opening up a new window on the universe.
This is an innovative, interdisciplinary collaboration between the existing LIGO, at the time it is being technically enhanced, and Zooniverse, which has fielded a workable crowdsourcing model, currently involving over a million people on 30 projects. The work will help aLIGO to quickly identify noise and artifacts in the science data stream, separating out legitimate astrophysical events, and allowing those events to be distributed to other observatories for more detailed source identification and study. This project will also build and evaluate an interface between machine learning and human learning that will itself be an advance on current methods. It can be depicted as a loop: (1) By sifting through enormous amounts of aLIGO data, the citizen scientists will produce a robust "gold standard" glitch dataset that can be used to seed and train machine learning algorithms that will aid in the identification task. (2) The machine learning protocols that select and classify glitch events will be developed to maximize the potential of the citizen scientists by organizing and passing the data to them in more effective ways. The project will experiment with the task design and workflow organization (leveraging previous Zooniverse experience) to build a system that takes advantage of the distinctive strengths of the machines (ability to process large amounts of data systematically) and the humans (ability to identify patterns and spot discrepancies), and then using the model to enable high quality aLIGO detector characterization and gravitational wave searches
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TEAM MEMBERS:
Vassiliki KalogeraAggelos KatsaggelosKevin CrowstonLaura TrouilleJoshua SmithShane LarsonLaura Whyte
A report following the 2016 Environmental Health Summit recommended engaging citizens in creating their own knowledge and solutions, thus ensuring that their concerns are adequately addressed and promoting sustainability of community projects. Indeed, citizen science has the potential to initiate a cascade of events with a positive ripple effect that includes a more diverse future STEM and biomedical workforce. This SEPA proposal involves the establishment of WE ENGAGE – an informal, citizen science-based, environmental health experiential learning program designed in partnership with and for under resourced communities struggling with health and environmental health challenges. Its purpose is to actively engage and build the citizen science capacity of citizens living in a single cluster of three contiguous under resourced, minority Cincinnati neighborhoods where generational challenges continue to plague residents despite the presence of established academic-community partnerships. Our hypothesis is that community-informed, experiential learning opportunities outside of the classroom that are structured, multi-generational, and story-based will encourage a) the active asking, discussion about, and answering of relevant complex health and environmental questions so that individuals and communities can plan action steps to make better health choices and pursue healthier environments, and b) greater interest and confidence in pursuing formal biomedical/STEM education and STEM careers. Our program has three specific aims: 1) We will co-create tailored story- based (graphic novel style) STEM education materials with a community advisory board and offer informal STEM education and research training to our target communities; 2) we will facilitate the application of scientific inquiry skills to improve health via community-led health fairs that use an innovative electronic health passport platform to collect data and through facilitated community discussions of health fair data to generate motivating stories to share; and 3) we will facilitate the application of scientific inquiry skills to foster community pride and activism in promoting healthier/safer built environments via walking environmental assessments. As in aim 2, facilitated discussions will be held to spur future community based participatory research studies and interventions. Critical to our success is the concept of storytelling. Storytelling is a foundation of the human experience. A key purpose of storytelling is not just understanding the world, but positively transforming it. It is a common language. Bringing together STEM concepts in the form of a story increases their appeal and meaning. Later, the very process of community data collection gives individuals a voice. In a data story, hundreds to millions of voices can be distilled into a single narrative that can help community members probe important underlying associations and get to the root causes of complicated health issues relevant to their communities. Through place based, understandable, motivating data stories, the community’s collective voice is clearer—leading to relevant and viable actions that can be decided and taken together. From preventing chronic disease, to nurturing healthier environments, to encouraging STEM education — stories have unlimited potential.
Public Health Relevance Statement:
Narrative WE ENGAGE is an informal citizen science-based, experiential learning program designed in partnership with and for middle schoolers to adults living in under resourced minority communities. Using the power of data collection and storytelling, its purpose is to actively engage citizens in STEM/research education and training to encourage a more diverse future workforce and to sustainably build local capacity to ask and answer complex health and environmental questions relevant to their communities. Further, by engaging citizens and giving them a more equitable stake in the research process, they are better able to discover their own solutions.
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TEAM MEMBERS:
Melinda Sue ButschkovacicSusan Ann Hershberger
Twin Cities PBS BRAINedu: A Window into the Brain/Una ventana al cerebro, is a national English/Spanish informal education project providing culturally competent programming and media resources about the brain’s structure and function to Hispanic middle school students and their families. The project responds to the need to eliminate proven barriers to Hispanic students’ STEM/neuroscience education, increase Hispanic participation in neuroscience and mental health careers and increase Hispanic utilization of mental health resources.
The program’s goals are to engage Hispanic learners and families by
empowering informalSTEM educators to provide culturally competent activities about the brain’s structure and function;
demonstrating neuroscience and mental health career options; and
reducing mental health stigma, thus increasing help-seeking behavior.
The hypothesis underpinning BRAINedu’s four-year project plan is that participating Hispanic youth and families will be able to explain how the brain works and describe specific brain disorders; demonstrate a higher level of interest of neuroscience and mental health careers and be more willing to openly discuss and seek support for brain disorders and mental health conditions.
To achieve program goals, Twin Cities PBS (TPT) will leverage existing partnerships with Hispanic-serving youth educational organizations to provide culturally competent learning opportunities about brain health to Hispanic students and families. TPT will partner with neuroscience and mental health professionals, cultural competency experts and Hispanic-serving informal STEM educators to complete the following objectives:
Develop bilingual educational resources for multigenerational audiences;
Provide professional development around neuroscience education to informal educators, empowering them to implement programming with Hispanic youth and families, and
Develop role model video profiles of Hispanic neuroscience professionals, and help partner organizations produce autobiographical student videos.
We will employ rigorous evaluation strategies to measure the project’s impact on Hispanic participants: a) understanding of neuroscience and brain health, particularly around disorders that disproportionately affect the Hispanic community; b) motivation to pursue neuroscience or mental health career paths; and c) mental health literacy and help-seeking behavior. The project will directly reach 72 Hispanic-serving informal STEM educators and public health professionals, and 200 children and 400 parents in underserved urban, suburban and rural communities nationwide.