Zoo New England will bring a turtle conservation education program into 14 fifth grade classrooms in the Boston public schools and the Perkins School for the Blind. The Hatchling and Turtle Conservation Headstarting Program is designed to expose students from a diverse range of socio-economic backgrounds to the importance of wildlife in their community, giving them an opportunity to participate in a hands-on conservation project. Each classroom will receive three indoor sessions and one field trip at the end of the year, as well as two turtle hatchlings to raise in the classroom. Teachers will be trained to raise and care for the turtles. Presentations will be tailored to the age group of the students and will include opportunities for hands-on STEM-inquiry-based learning in alignment with the Massachusetts Science and Technology/Engineering Curriculum Frameworks. Pre and post classroom and field trip evaluation will be conducted to assess the cognitive and attitudinal changes among participating students and teachers.
As it embarks on opening a new facility, the Palo Alto Junior Museum and Zoo will launch the "Access From the Ground Up" project to make the new facility and exhibitions accessible to everyone, and provide science learning opportunities to children with physical and developmental disabilities. The museum and zoo will build relationships with the Inclusion Collaborative of the Santa Clara County Office of Education and other partner organizations that serve visitors with disabilities; provide seven intensive training and professional development opportunities for staff members and volunteers to heighten their knowledge about contemporary access issues; and prototype, test, build, and remediate 27 new permanent exhibitions. The project will address the lack of quality STEM experiences for the growing number of children with a variety of disabilities, and is intended to serve as a national model for inclusion for museums and zoos of all types and sizes.
The Habitot Children's Museum will renovate its Rocketship and Mission Control exhibition to increase functionality, making it more accessible and interactive for parents, caregivers, and children. With input from the community and a professional advisory group of museum professionals, early learning specialists, space scientists and parents, the museum will refurbish, update, and improve exhibition access for children with special needs by completing previously identified universal design requirements; adding interactive components that support young children's need for open-ended, play-based experiences to build strong STEM learning foundations; and addressing adult visitors' needs to have defined roles in exhibition spaces to better engage with their children. A customized, observation-based evaluation tool will be used to measure the identified project outcomes.
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 project explores augmented reality (AR) technology as a way to make STEM content accessible to Deaf and Hard-of-Hearing (DHH) learners in "live" presentation settings found within science centers and museums. The current ways of providing communication and information access to DHH museum visitors require DHH learners to split their attention between the visual focus of the experience and the interpreter or captioning display. As a result, DHH learners are forced to decide which information to miss during live presentations, thus presentations may not be fully comprehended by the DHH learner. Furthermore, this issue perpetuates a lack of inclusivity and accessibility in informal STEM learning environments. The work focuses on investigating approaches to develop an AR platform with a near-eye display that will allow DHH visitors to receive signed or captioned instruction while still looking at and interacting with the intended exhibits. The new platform will allow for transmission of live and spontaneous instruction. Researchers will evaluate and recommend efficient ways to make information at science centers and museums accessible to the DHH population based on data collected from DHH learners. This project is funded by the Advancing Informal STEM Learning program's Pilot and Feasibility Studies which seek new approaches to design and development of STEM learning to be accessible to all learners including underrepresented groups in informal environments.
The researchers will investigate the following research question: how can the use of Augmented Reality (AR) as a method of support service delivery improve the engagement of Deaf and Hard-of-Hearing (DHH) adolescent learners in semi-structured learning environments? Both formative and summative evaluations will be conducted from two different angles: (1) an engineering-centric evaluation focused on technical development and (2) an educational-research centric evaluation focused on pilot studies on user experiences, attitudes, and learning outcomes. Both qualitative and quantitative data on the use of this technology will be collected. The evaluation methods include attitudinal surveys (pre/post), ethnographic observations, pre/post tests of content knowledge, and semi-structured group and individual interviews. This project will be conducted by researchers in the Center on Access Technology at National Technical Institute for the Deaf, one of the colleges of Rochester Institute of Technology, in partnership with the Rochester Museum & Science Center, which includes the Rochester Challenger Learning Center. This project represents a first step in setting future directions for research & development and to make educational materials more accessible to the DHH community.
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.
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TEAM MEMBERS:
Wendy DannelsSara SchleyBrian TragerMel Chua
resourceprojectProfessional Development, Conferences, and Networks
The goal of FLIP (Diversifying Future Leadership in the Professoriate), an NSF INCLUDES Design and Development Launch Pilot, is to address the broadening participation challenge of increasing the diversity of the future leadership in the professoriate in computing at research universities as a way to achieve diversity across the field. According to the 2016 CRA Taulbee Survey, only 4.3% of the tenure-track faculty at PhD-granting universities are from underrepresented minorities. This challenge is important to address because diverse faculty contributes to academia in the following critical ways: serve as excellent role models for a diverse study body, bring diverse backgrounds to the student programs and policies developed by the department, and bring diverse perspectives to the research projects and programs. Further, the focus is on research universities, because in practice, key national leadership roles, such as serving on national committees that impact thefield of computing, often come from research universities.
The shared purpose and broad vision of the FLIP launch pilot is to increase faculty diversity in computing at research universities by increasing the diversity of PhD graduates from the top producers of computing faculty. The focus is on four underrepresented groups in computing: African Americans; Hispanics; Native Americans and indigenous peoples; and Persons with Disabilities. The long-term goal is to pursue this vision through strategic partnerships with those institutions that are the top producers of computing faculty and organizations that focus on diverse students in STEM, as well as partnerships that collectively adopt proven strategies for recruiting, graduating, and preparing a diverse set of doctoral students for academic careers. The purpose of the pilot is to establish a unified approach across the different partners that will build upon proven strategies to develop novel practices for increasing the diversity of the PhD graduates from key institutions, thereby increasing the faculty diversity in computing at research universities. For the pilot, FLIP will focus on recruitment and admissions and professional development for current PhD students.
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TEAM MEMBERS:
Valerie TaylorCharles IsbellJeffrey ForbesUniversity of Chicago
resourceprojectGames, Simulations, and Interactives
EMERGE in STEM (Education for Minorities to Effectively Raise Graduation and Employment in STEM) is a NSF INCLUDES Design and Development Launch Pilot. This project addresses the broadening participation challenge of increasing participation of women, the at-risk minority population, and the deaf in the STEM workforce. The project incorporates in and out-of-school career awareness activities for grades 4-12 in a high poverty community in Guilford County, North Carolina. EMERGE in STEM brings together a constellation of existing community partners from all three sectors (public, private, government) to leverage and expand mutually reinforcing STEM career awareness and workforce development activities in new ways by using a collective impact approach.
This project builds on a local network to infuse career exposure elements into the existing mutually reinforcing STEM activities and interventions in the community. A STEM education and career exposure software, Learning Blade, will be used to reach approximately 15,000 students. A shared measurement system and assessment process will contribute to the evaluation of the effectiveness of the collective impact strategies, the implementation of mutually reinforcing activities across the partnership and the extent to which project efforts attract students to consider STEM careers.
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TEAM MEMBERS:
Gregory MontyMargaret KanipesMalcolm SchugSteven Jiang
Physical science and engineering remain the least diverse of all STEM fields---with regard to women, underrepresented minorities, and persons with disabilities---across all levels of STEM education and training. SCI-STEPS is an NSF INCLUDES Design and Development Launch Pilot that will address this persistent challenge by developing a complete end-to-end pipeline (or system of pathways) from the beginning of college to the PhD, and then into the workforce. Many isolated efforts to broaden participation have shown promise, but they have not produced big enough impact. SCI-STEPS represents a concerted set of coordinated interventions---consciously facilitated, systemically linked, and purposefully disseminated. SCI-STEPS represents a broad regional network among major research universities, Historically Black Colleges and Universities, comprehensive universities, community colleges, national labs, and major scientific organizations. The goal of the network is to ensure that underrepresented individuals in the physical sciences and engineering can get from their starting point in STEM higher education---freshmen at 2-year or 4-year college---through the higher education pathways leading to an appropriate terminal degree and employment in the STEM workforce.
Women, underrepresented minorities, and persons with disabilities collectively represent the majority of college-age individuals entering higher education with an expressed interest in physical science and engineering. A growing body of research indicates that academic and social integration may be even more influential than academic abilities for retention of students. Thus, interventions aimed at stemming the losses of these individuals must ultimately be aimed at changing the system---including unwelcoming institutional climates, racial/ethnic/gender stereotyping, a lack of mentors with whom to identify, and evaluation methods that emphasize conformity over individual capabilities---rather than changing the individual. The SCI-STEPS pilot focuses effort on institutional readiness for implementation of best practice interventions at four key junctures: (i) college freshman to sophomore; (ii) undergraduate to graduate; (iii) PhD to postdoc; and (iv) postdoc to workforce.The pilot will proceed in three steps: (1) a planning phase, (2) development of an initial end-to-end pathways model with four Juncture Transition teams, and (3) scale-up of the SCI-STEPS "network of networks" with all initial partners. By addressing these objectives through a collective impact framework and embedded research, this pilot will demonstrate how best-practice interventions at each pathway juncture can be dovetailed and scaled up across a broad range of institutional types and across a large but distinct geographical area. Addressing these objectives will thus also serve to advance Broadening Participation efforts at a national scale, by suggesting the forms of institutional partnerships and best-practices that may inform other alliances in other STEM disciplines and/or different regional areas.
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TEAM MEMBERS:
Keivan StassunNicole JosephKelly Holley-BockelmannWilliam RobinsonRoger Chalkley
resourceprojectProfessional Development and Workshops
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. Blind youth are generally excluded from STEM learning and careers because materials for their education are often composed for sighted individuals. In this proposed Innovations in Development project, the PIs suggest that spatial acuity is an important element in order for blind persons to understand physical and mental structures. Thus, in this investigation, efforts will be made to educated blind youth in the discipline of engineering. A total of 200 blind students, ages 12-20 along with 30 informal STEM educators will participate in the program. This effort is shared with the National Federation of the Blind, Utah State University, the Science Museum of Minnesota, and the Lifelong Learning Group.
The National Federation of the Blind, in partnership with scholars from Utah State University and educators from the Science Museum of Minnesota will develop a five-year Innovations in Development project in order to broaden the participation of blind students in STEM fields through the development of instruction and accessible tools that assess and improve the spatial ability of blind youth. The partnership with the Science Museum will facilitate the creation of informal science content for students and professional development opportunities for informal educators. Evaluation will be conducted by Lifelong Learning Group of the Columbus Center of Science and Industry. Activities will begin in year one with a week-long, engineering design program for thirty blind high-school students at the Federation of the blind headquarters in Baltimore. Year two will feature two similarly sized programs, taking place at the Science Museum. While spatial ability is linked to performance in science, research has not been pursued as to how that ability can be assessed, developed, and improved in blind youth. Further, educators are often unaware of ways to deliver science concepts to blind students in a spatially enhanced manner, and students do not know how to advocate for these accommodations, leading blind youth to abandon science directions. Literature on the influences of a community of practice on youth with disabilities, as well as nonvisual tools for experiencing engineering, is lacking. This project will advance understanding of how blind people can participate in science, and how spatial ability can be developed and bolstered through informal engineering activities and an existing community of practice.
Chemistry is an important and widely relevant field of science. However, when compared with other STEM content areas, chemistry is under-represented in U.S. science museums and other informal educational environments. This project will build, and build knowledge about, innovative approaches to delivering informal science learning activities in chemistry. The project will not only increase public interest and understanding of chemistry but also increase public perception of chemistry's relevance and increase the public's self-efficacy with respect to chemistry. This project outcomes will include a guide for practitioners along with activity materials that will be packaged into a kit, distributed, and replicated for use by informal science educators, chemists, and chemistry students at 250 sites across the U.S. The project team will reach out to organizations that serve diverse audiences and diverse geographic locations, including organizations in rural and inner-city areas. The kits will provide guidance on engaging girls, people with various abilities, Spanish speakers, and other diverse audiences, and include materials in Spanish. Written guides, training videos, and training slides will be included to support training in science communication in general, as well as chemistry in particular. This project is supported by the Advancing Informal STEM Learning (AISL) program funds research and innovative resources for use in a variety of settings, as a part of its overall strategy to enhance learning in informal environments.
This project will take an innovative approach to develop informal educational activities and materials about chemistry. Rather than starting with content goals, the project will start with a theoretical framework drawn from research about affecting attitudes about science related to interest, relevance, and self-efficacy. A design-based research approach (DBR) will be used to apply that framework to the development of hands-on educational activities about chemistry, while also testing and modifying the framework itself. (DBR blends empirical educational research with the theory-driven design of learning environments.) Existing or new educational activities that appear to embody key characteristics defined in the framework will be tested with public audiences for their impact on visitors. Researchers and educators will determine how different characteristics of the educational activities defined in the framework affect the outcomes. The activities will be modified and tested iteratively until the investigators achieve close alignment between framework and impacts.. The project team will continue the design-based research approach both to examine groups of activities in which synergies can have impacts beyond single interactions as well as to examine varied ways of training facilitators who can also significantly affect outcomes. In this way, the project will generate knowledge about how kits of hands-on informal learning activities can stimulate attitudes of interest, relevance, and self-efficacy with respect to the neglected field of chemistry. The project teams will broadly disseminate project outcomes within the educational research, science and informal Science, Technology, Engineering and Mathematics (STEM) education communities. While this project will focus on chemistry, the strategies it will develop and test through a design-based research process will provide valuable insight into effective approaches for informal STEM education more broadly.
As part of its overall strategy to enhance learning in informal environments, the Advancing Informal STEM Learning (AISL) program funds innovative resources for use in a variety of settings. Using hand-held mobile devices this project would test specialized Signing Glossaries for Science Exhibits (SGSE). The glossaries are developed from 5000 unique signing terms specific to the science in 6 partner institutions and designed to reach families with at least one member, ages 5-12+, who is deaf or hard of hearing and uses American Sign Language (ASL) for communication. The project would demonstrate the potential effectiveness of the venue-specific signing glossaries to enhance access to STEM learning during visits to informal STEM learning environments such as aquariums, botanical gardens, natural history museums, nature centers, science museums, and zoos.
While utilizing existing domain specific signing terms, the project will adapt and improve on their use in content specific informal science venues to increase the opportunity for the target audience to both enjoy and benefit from the wide array of informal science learning opportunities available to this group. The research should reveal how this approach might benefit those with other types of disabilities. The research questions are designed to understand both how family members might interact with a hearing disabled family member as well as how the disabled individual might learn more about a variety of STEM content in a setting that is not domain specific but uses the influence of science exhibits to inform, engage and interest members of the public generally.
Domain specific signing dictionaries have been developed, many by this PI, to address access to content specific topics in STEM. This proposal extends this concept to informal learning environments that are content specific to increase the opportunity for those with hearing disabilities to increase their capability to both enjoy informal science learning venues and to understand more of what these venues provide in terms of science learning.