Many people with autism are unemployed and isolated because they do not have access to educational opportunities that support them in finding jobs that match their potential. This research seeks to empower adolescents with autism to seek out careers that are well-matched with their strengths and interests. Many people with autism are interested in computing, a marketable skill. This project builds from this interest by developing strategies to effectively engage teenagers with autism. Although people with autism share a diagnosis, each person is unique and has the capacity to become a visionary and transformer in society in their own way. Teenagers with autism will be invited to participate in a game design workshop hosted by an award-winning, not-for-profit Tech Kids Unlimited. Teenagers often enjoy learning how to design games and can learn many useful skills through design. During each workshop, teenagers will rate different teaching strategies using a picture-based survey developed in collaboration with people with autism. It is expected that teenagers with autism who have difficulty focusing to be most engaged by strategies that include multiple types of information (for example, pictures, text, and speech). The team also expects those who are more focused to be most engaged by strategies with fewer sources of information. By developing clear guidelines to help educators match their teaching styles to how different students learn, the project will help them engage youth more effectively. Through an iterative process, the team will revise the game design workshop to make it more engaging for people with different types of autism. New groups of teenagers with autism will participate in improved game design workshops that include an internship in a technology company. An important outcome is to understand which strategies are engaging for young people with autism that help them develop the belief in their skills needed to seek out fulfilling careers. This award is funded by the Advanced 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 Research in Service to Practice project has the following aims: 1) Identify evidence-based strategies to engage youth with autism spectrum disorder (ASD) in informal STEM learning opportunities that are well matched to their attentional profiles, 2) Determine if engaging youth with ASD in informal STEM learning opportunities increases their STEM self-efficacy, and 3) Determine if engagement with STEM internship activities is associated with increased interest in STEM careers and career decision-making self-efficacy. Principles of Universal Design (UD) and Mayer's principles of effective multimedia instruction are frameworks employed to identify instructional strategies that are emotionally engaging for youth with diverse attentional profiles. The degree to which attentional differences contribute to different patterns of emotional engagement with informal STEM learning will be investigated. Guided by assessments of youth's engagement with different learning opportunities, 'diversity blueprints' or specific instructional strategies that help youth with diverse attentional profiles engage will be developed. After identifying strategies to engage neurodivergent (neurologically diverse) youth in informal STEM learning opportunities, the extent to which these strategies generalize to STEM internship sites will be explored. The team will study potential specificity of the types of contexts that promote different types of self-efficacy, with engagement with extracurricular STEM learning opportunities expected to preferentially target STEM self-efficacy while engagement with internships targets career decision-making self-efficacy. Although UD is often endorsed to promote STEM learning among students with disabilities, the proposed research would be the first iterative adaptation of instructional strategies designed to engage neurodivergent teens in informal STEM learning guided by a systematic analysis of how they engage with and feel about instructional strategies. Project deliverables include workshops for local after-school program providers, publications, a project website, and a multimodal guide of the process of developing 'diversity blueprints' and how to apply them for informal STEM educators and researchers.
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.
There is a national need to expand opportunities to learn coding and computational thinking in informal science, technology, engineering, and mathematics (STEM) education. These skills are increasingly needed in STEM disciplines. As young people learn to code, they engage in computational thinking concepts and practices which are problem solving strategies that include repeated process (iterative) design skills. This project promotes innovation by designing and developing activities for tinkering spaces (a space filled with materials for hands-on exploration of STEM) combined with coding in informal learning organizations such as museums, and community centers. The project supports both tinkering and making as methods to meaningfully incorporate computational thinking in STEM learning experiences. The tinkering approach to learning is characterized by hands-on, trial and error engagement. Making is similar to tinkering with additional attention to learning with peer groups. The long-term goal of the project is to enable informal educators to engage in STEM programming with youth and families from underrepresented groups. The project brings together interdisciplinary teams from the Department of Information Science at the University of Colorado Boulder (CU Boulder), the Tinkering Studio at the Exploratorium, and the Lifelong Kindergarten research group at the Massachusetts Institution of Technology. In collaboration with local partner sites, the project team will design and disseminate a collection of six computational tinkering activity areas that engage learners in creative explorations using a combination of physical objects and computational code. The team will develop visual coding "microworlds" for each of the activity areas, specialized sets of coding blocks designed to provide scaffolding. Additionally, the project team will design and develop facilitation guides to document these activities and facilitation strategies, as well as workshops to better support facilitators in making and tinkering spaces.
The project enhances knowledge building through investigations of what instructional supports informal educators need to develop effective facilitation practices that engage underrepresented youth and families in STEM computational learning experiences. Study participants will include informal educators in museum, library, and community-based settings with varying backgrounds and experiences facilitating computing activities. The project team will also engage youth and families from underrepresented groups through collaborative efforts with community-based partners. Research questions include: 1) What challenges and barriers do informal learning educator, face to engage their learners in design-based activities with computing? 2) What supports informal learning educators to take on key facilitation practices that support children and families in computational tinkering activities? 3) In jointly engaging in these computational tinkering activities, how do the activities and informal learning educators? facilitation of these activities impact children's and families' development of computational tinkering and identities as creators and learners with computing? To answer these research questions the project will use qualitative ethnographic methods to study the developing interactions between learners and facilitators at three local sites. Comparative case studies of facilitators across the local partner sites will also be used to examine what supports facilitators to take on key facilitation practices. Data sources will include participant observation of facilitators and families, documentation in the form of photos, videos, and audio recordings, project artifacts, bi-monthly short surveys with reflective prompts, and interviews with facilitators and families.
This award is funded by the Advancing Informal STEM Learning (AISL) 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.
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.
The impacts of changes in the climate at local and global levels threaten how people live. Some frontline communities, especially in historically disenfranchised and under-resourced areas, are particularly vulnerable to the devastating effects of climatological events such as wildfires, flooding, and urban heat islands. As such, there is an urgent need for collective, evidence-based understanding and engagement to prevent and prepare for these potentially fatal events. Led by the Oregon Museum of Science and Industry (OMSI) in Portland, Oregon, in collaboration with local and national partners, Youth Lead the Way is an early-stage Innovations in Development project that offers a theory-based approach for youth in climatologically vulnerable communities to work in climate science research alongside field researchers, develop leadership skills, and engage in timely conversations that impact their own communities. The project will develop and evaluate a Youth Advisory Research Board model to equip and support youth and informal STEM education institutions to conduct evidence-based research on local climate impacts and communicate the findings of their research to their communities. Youth Lead the Way advances the work of several previous NSF-funded projects on climate education, youth advisory boards, and collaborative networks to engage the public in informal STEM learning. Findings from this project will support ongoing efforts in the informal STEM education field to meaningfully engage youth and to more effectively communicate science related to climate and its impacts to the public.
During this initial two-year early-stage project, youth predominantly from racial and ethnic groups underrepresented in STEM will engage in a year-long extended STEM experience. These youth will work collaboratively with scientists and museum professionals to enhance their skills as climate researchers, science communicators, and educational leaders, while reaching an estimated 4,000 or more public audience members through research and events at OMSI, in their schools, and in their communities. Using a cohort model, the youth will conduct scientifically based research studies on various local climate impact topics while concurrently serving in an advisory role at the Oregon Museum of Science and Industry, where they will participate in shaping relevant museum programs and practices. The youth will also develop and present climate stories, a communication approach based on storytelling, to raise public understanding and awareness about local climatological changes and impacts. In addition to the youth component, a companion workshop will be held at the Sciencenter in Ithaca, New York, a partner organization, to train staff and formatively assess the feasibility of scaling the model in other museums. At the program level, an exploratory qualitative research study will be conducted to identify the factors of the overall model that contribute to desired outcomes of youth engagement, climate impact education, and informal science education professional development. Interviews, surveys, focus groups, group chats among youth cohort members, and reviews of artifacts generated by the youth will inform this exploratory study. A theory-based guide outlining key findings, considerations, and recommendations will also be produced. The dissemination of this work will be multi-tiered, reaching thousands within the target communities through public programs, professional networks, at conferences, and a live virtual professional development event hosted by the Association for Science-Technology Centers. If successful, Youth Lead the Way will lay the groundwork for a model that promotes youth and public engagement in STEM through climate science research and identifies promising pathways for future research and similar efforts well beyond this project.
This early-stage Innovations in Development project is funded by the NSF 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.
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.
Parents and adult caregivers play a significant role in young children's understanding of (and participation in) science, technology, engineering, and mathematics (STEM). Research suggests that early engagement with STEM can have a profound impact on children's use of STEM process skills such as exploration, observation, and problem-solving, as well as future academic success. An immediate yet ongoing challenge facing informal STEM learning providers is to understand how limited resources can be used to support effective STEM learning opportunities and experiences for all children and families. Through a collaboration between researchers, Head Start, two science centers (one rural, one urban), and educators, this project aims to foster STEM access and engagement with specific attention to young children and their caregivers. This project is funded by the Advancing Informal STEM Learning (AISL) program which seeks to advance new approaches to, and evidence-based understanding of, the design and development of STEM learning in informal environments.
This Pilot and Feasibility study will apply an experimental, mixed-methods design to examine parent/caregiver and child (ages 4-5) interactions before, during, and after informal STEM experiences to identify which factors influence children's transfer of learning STEM process skills across multiple informal contexts. Research results will lay the foundation for a future longitudinal study. The project team will ask: (1) What types of parent/caregiver-child engagement at the science center are most predictive of children's application of STEM process skills in subsequent problem-solving tasks and school readiness? (2) How do variations in parent/caregiver-child conversational strategies during the science center visit influence children's memory and learning? and (3) How can informal educators best support Head Start family engagement and children's emerging STEM knowledge? This study will collect data on 240, 4-5-year-old children, with their caregivers, in two different science centers that serve a largely rural and largely urban population. Data sources will include video/audio of caregiver-child interactions at the science centers and at home, as well as children's recall, engagement with a problem-solving task, and school readiness scores. Coding and analysis of the tasks during and after the science center visit will detail mechanisms underlying children's memory, learning, and application of STEM process skills that transfer to the problem-solving task. The project will be implemented by a research-practice partnership, leveraging the expertise of project partners and communities to ensure the use of culturally responsive research practices. This research has the potential to strategically impact how science centers and Head Start grantees work together on Family Engagement programming to achieve equitable STEM learning opportunities, broadening participation for low-income young children and their families.
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.
Very little is known about the experiences of people with learning disabilities in informal learning environments such as science centers and museums. This project will describe the ways in which engagement and intrinsic motivation for learning are and are not supported for visitors with learning disabilities, and build capacity for informal STEM education practitioners to apply this learning for the benefit of those with learning disabilities as well as any visitor who needs more support in the context of self-directed learning. Broadening participation science, technology, engineering and math (STEM) is a core goal of the National Science Foundation and its Advancing Informal STEM Learning (AISL) program. This project pursues this goal with a focus on young people with learning disabilities. As the largest group of individuals with disabilities in the United States, people with learning disabilities make up an estimated 20% of the U.S. population. Science professions offer many life- and work-related opportunities for individuals with learning disabilities, and the flexible experiences of informal learning spaces offer important opportunities to promote participation, engagement in and motivation for science. This work represents the next generation of accessible design to broaden participation in, and impacts of, informal STEM learning opportunities. This project will generate guidelines and resources to support inclusive design for this group of visitors. Resources will include a Toolkit of Visual Assets that can be shared digitally and in print with youth with learning disabilities, informal STEM practitioners, and the learning disability research and practice community.
The project will develop empirical knowledge to support informal STEM practitioners to better facilitate the inclusion of youth with learning disabilities. Using the lens of Self-Determination Theory as an explanatory framework, this research will be pursued in three phases. Self-Determination Theory describes the psychological needs that must be met, such as autonomy and feelings of efficacy, to create an environment that supports individuals' engagement in self-motivated behaviors. Phase 1 will be an exploratory study describing the engagement and motivation of adolescents (ages 10-17) with learning disabilities when experiencing varied STEM exhibits. This first phase will adapt validated scales, employ an existing observation protocol, and conduct stimulated recall interviews with youth. Phase 2 will explore, develop and investigate design strategies to improve the intrinsic motivation of youth with learning disabilities at educational STEM exhibits. This second phase will involve a set of experimental studies in which design strategies related to intrinsic motivation are manipulated to inform principles of inclusive design for visitors with learning disabilities. As in the previous phase, Phase 2 will adapt validated scales and employ an existing observation protocol. Phase 3 will focus on design charrettes in which researchers and practitioners work with high school students with learning disabilities in a co-design process. The charrettes will generate guidelines and case examples of exhibit components using Universal Design for Learning to balance varying design priorities and effectively, inclusively design exhibits for this population. This third phase will rely on qualitative coding of co-design charette artifacts, field notes and researcher reflections; member checking will play an important role in the coding process. Dissemination efforts for this project will target youth with learning disabilities, informal STEM education practitioners, and the broader field of learning disability researchers and practitioners. In addition to the exhibit design guidelines and Toolkit described above, the project will publish peer reviewed articles and develop manuscripts aimed at educational research and practice.
This Research in Service to Practice project is funded 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.
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.
As part of its overall strategy to enhance learning in informal environments, the Advancing Informal STEM Learning (AISL) program 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 pilot and feasibility project addresses the needs of youth (ages 10-19) who are deaf or hard of hearing and use either English or American Sign Language as their preferred method of communication. The project will develop and study video stories from members of the STEM workforce who are deaf or hard of hearing. Youth will view these videos on the web at home or at an afterschool program. These stories will help the youth become aware of the range of STEM careers that are available and their potential to pursue and succeed in these occupations. One of the biggest challenges young persons who are deaf or hard of hearing face is not having role models who are members of the STEM workforce. Without these role models they are not aware of the possibility that they could work in these fields. Several studies indicate that seeing other people with disabilities having success in STEM boosts self-confidence. Exposure to deaf role models allows deaf student to identify with successful deaf people and consequently believe they themselves could accomplish goals they previously thought out of their reach. Project collaborators include Gallaudet University Regional Center, Northeast Deaf & Hard of Hearing Service, Boys & Girls Club of Lynn, MA, and Bridge Multimedia.
The project will advance knowledge in the field of deaf education in informal settings. The research questions are: 1) How do adolescents who are deaf or hard of hearing integrate and use digital versions of firsthand stories from members of the STEM workforce? 2) How do parents and club leaders make use of the stories? 3) What kind of outcomes are made possible by using the stories such as interest in STEM careers 4) What modifications and additional would improve the stories to make them more useful and effective? 5) What dissemination strategies would maximize story use? The project will do a formative evaluation of the pilot videos using a sample of 30 family groups and 10 boys? and girls? participants. Families will meet with researchers at one of the collaborating institutions (Gallaudet University Regional Center East, Northeast Deaf & Hard of Hearing Service or TERC) depending on where they live. The researcher will work with one family or adolescent at a time. They will view the videos on a computer while the researchers observe and record data. After viewing the videos, researchers will ask them questions about what they learned, what might be added, changed, or improved. They will be asked to look at the videos later on their home computers and do things such as select a STEM career for further research. Additional data collection will involve completing a post-use online survey for adolescents and their parents.
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.
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.
Making, which supports interest-driven skill-development and learning, has been recognized as having the potential to engage underserved youth in STEM. Makerspaces are community spaces that allow participants to create items using tools, such as 3-D printers, computer-aided design, and digital fabrication technologies. Makerspaces and making-related programs are often inaccessible, unaffordable, or simply not available to underserved youth. Digital Harbor will partner with recreation centers, two in Pittsburgh and two in Baltimore, to research, refine and implement an equity-based approach to making that will engage underserved youth aged 12-16 in making. The project will prepare out-of-school time (OST) educators to collaboratively develop culturally sensitive curricula with underserved youth to engage them in maker-based technology and computer science experiences. The project will (1) design a professional development program that will prepare and support local educators to collaboratively design and deliver localized, maker-based, STEM curricula; (2) research the impact of these programs on both educators' and youth's self-efficacy, creativity, and attitudes towards STEM; and (3) develop and evaluate an online Localization Toolkit that will prepare educators in makerspaces across the nation in using an equity-based approach to create localized content. The project will result in four new maker sites (two in Baltimore and two in Pittsburgh directly impact 4 sites (10 educators and 240 youth). The project will result several resources that will support the development and educational programs of other community sites. The resources will include the Localization Toolkit, Case Studies, Best Practices, and Research Study. The Localization Toolkit has the potential to strengthen infrastructure and capacity building in OST maker-based programs, as well as other informal and formal education programs using similar pedagogies and design principles.
The project will use a mixed-methods approach in researching the challenges and processes involved in establishing the four maker sites in Baltimore and Pittsburgh, the approaches and effectiveness of the professional development program on OST educators, and the impacts of the project of participation on the self-efficacy, creativity, and attitudes on participating youth and educators. The research study will apply several instruments and data collection sources to develop quantitative data, including youth attendance logs, the Upper Elementary and Middle/High School Student Attitudes toward STEM survey, a retrospective technology self-efficacy survey and pre-post surveys. In addition to project document review, the researchers will collect qualitative data through educator interviews, educator focus groups, and youth focus groups. Project research and resources will reach key audiences of learning scientists and OST educators through articles in peer-reviewed and practitioner journals, public events and professional conferences. These audiences will also be reached through the project website, which will share project resources. The project will reach OST sites across the country directly through dissemination partners, including the National Recreation and Parks Association, Association of Science and Technology Centers, and statewide out-of-school networks.
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.
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:
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TEAM MEMBERS:
Teon EdwardsJodi Asbell-ClarkeJamie LarsenIbrahim Dahlstrom-Hakki
As part of its overall strategy to enhance learning in informal environments, the Advancing Informal STEM Learning (AISL) program 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. The project aims to understand ways to empower Latinx families (adult caregivers) to feel confident in their ability to support their middle school-aged girls in science and engineering activities. The project involves seven weeks of family programming around rockets or urban farming, as well as separate conversation groups for adult family members and girls. The project is relevant for several reasons: females and Latinx individuals are both underrepresented in science, technology, engineering, and math (STEM) coursework and careers; girls tend to lose interest in STEM by middle school age; and adult family members may have an impact on their children's attitudes and interests. The project partners with school districts and nonprofit organizations in Arizona and California.
This multidisciplinary project's priority is broadening participation, with a focus on increasing Latina girls' science and engineering interests through Family Project-Based Learning Activities, Conversation Groups, and a cultivated Community of Learners. It is based on the frameworks of Social Cognitive Career Theory and Community Cultural Wealth. The project aims to empower families (adult caregivers) to feel confident in their ability to support their daughters in science and engineering activities, which is often low especially among Latinx parents. The project will develop and evaluate two out-of-school enrichment methods for aiding families in encouraging and supporting their daughters in science: Family Problem-Based Learning Activities, which focus on rockets and urban farming, and Conversation Groups, which provide information and discussion for separate groups of parents and girls. A series of pilot studies will be conducted with 80 families to iteratively evaluate and improve the materials and procedure prior to the main study with 180 families, featuring a factorial design with a control group.
The materials developed and research findings may inform similar projects, especially those for students from culturally and linguistically diverse backgrounds and projects seeking to enhance the role of families in learning. The hypothesis guiding the project is that the greatest gains will be produced with the synergistic combination of enrichment methods. Another component that can potentially have broad impact is working to create environments where Community Cultural Wealth is recognized and enhanced through interactions of different families, creating Communities of Learners. This can inform projects that recognize the importance of community and/or that seek to use culture as an asset. The proposed study will engage three geographically distributed universities and several community partners. It will also provide university students and community leaders opportunities for work on instructional design, implementation, and research. The team will disseminate their findings and methods through multiple avenues to reach researchers, parents, leaders, curators, and educators in informal and K-12 settings.
This Research in Service to Practice 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:
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TEAM MEMBERS:
Katherine Short-MeyersonPeter RilleroPeter MeyersonMargarita Jimenez-SilvaChristopher Edwards
This three-year research and implementation project empowers middle school LatinX youth to employ their own assets and funds of knowledge to solve community problems through engineering. Only 7% of adults in the STEM job cluster are of Hispanic/Latino origin. There is a continuing need for filling engineering jobs in our current and future economy. This project will significantly broaden participation of LatinX youth in engineering activities at a critical point as they make career decisions. Design Squad Global LatinX expands on a tested model previously funded by NSF and shown to be successful. It will enable LatinX youth to view themselves as designers and engineers and to build from their strengths to expand their skills and participation in science and engineering. The project goals are to: 1) develop an innovative inclusive approach to informal engineering education for LatinX students that can broaden their engineering participation and that of other underrepresented groups, (2) to galvanize collaborations across diverse local, national, and international stakeholders to create a STEM learning ecosystem and (3) to advance knowledge about a STEM pedagogy that bridges personal-cultural identity and experience with engineering knowledge and skills. Project deliverables include a conceptual framework for a strength-based approach to engineering education for LatinX youth, a program model that is asset based, a collection of educational resources including a club guide for how to scaffold culturally responsive engineering challenge activities, an online training course for club leaders, and a mentoring strategy for university engineering students working with middle school youth. Project partners include the global education organization, iEARN, the Society of Women Engineers, and various University engineering programs.
The research study will employ an experimental study design to evaluate the impact on youth participating in the Design Squad LatinX programs. The key research questions are (1) Does participation increase students' positive perceptions of themselves and understanding of engineering and global perspectives? (2) To what extent do changes in understanding engineering vary by community (site) and by student characteristics (age, gender, ethnicity)? (3) Do educators and club leaders increase their positive perceptions of youths' funds of knowledge and their own understanding of engineering? and (4) Do university mentors increase their ability to lead informal engineering/STEM education with middle school youth? A sample from 72 local Design Squad LatinX clubs with an enrollment of 10-15 students will be drawn with half randomly assigned to the participant condition and half to the control condition. Methods used include pre and post surveys, implementation logs for checks on program implementation, site visits to carry out observations, focus groups with students and interviews with adult leaders. Data will be analyzed by estimating hierarchical linear models with observations. In addition, in-situ ethnographically-oriented observations as well as interviews at two sites will be used to develop qualitative case studies.
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.
There are several critical reasons to understand and support interest development in early childhood: (a) as a primary motivator of engagement and learning; (b) interest development in preschool predicts important learning outcomes and behaviors in early elementary school; and (c) early childhood interests motivate ongoing interest development. Thus, there is growing recognition that interest is not just important but fundamental to education and learning. Head Start on Engineering (HSE) is a multi-component, bilingual (Spanish/English), family-focused program designed to (1) foster long-term interest in the engineering design process for families with preschool children from low-income backgrounds and (2) support family development and kindergarten readiness goals. The HSE program, co-developed with the Head Start community, provides families with developmentally appropriate, story-based engineering design challenges for the home and then connects these to a system of strategically aligned Informal STEM Education (ISE) experiences and resources. This current project, HSE Systems, builds on a previous HSE Pathways project which (a) established that participating families develop persistent engineering-related interests; (b) highlighted the value that the Head Start community has for the program and partnership; and (c) generated a novel, systems perspective on early childhood interest development. The aim of HSE Systems is to develop and test a model of early childhood STEM engagement and advance knowledge of how the family as a system develops interest in STEM from preschool into kindergarten.
Through the Design Based Implementation Research (DBIR) process, the team will iteratively refine and improve the HSE program and theory of change using ongoing feedback and data from staff, families, and partners. It is also designed to explore program impacts on family interest development over a longer period, as children enter kindergarten. The DBIR work will focus primarily on the program model questions, while the case study research will focus on the family interest questions, with both strands informing each other. The initial work is organized around a series of feedback and design-testing cycles to gather input from families and other stakeholders, update the program components and activities in collaboration with families and staff, and prepare for full implementation. During the next phase, the team will implement the full program model with six Head Start classrooms and track family experiences and interest development into kindergarten. During final implementation phase, the team will finish data collection, conduct retrospective analysis with all the data, and update the program model and theory of change.
This project will directly address the AISL program goals by broadening access to early childhood informal STEM education for low-income communities, with a focus on Spanish-speaking families, and building long-term skills and learning dispositions to support STEM learning inside and outside of school. Beyond the topic of engineering, HSE supports Head Start school readiness and child and family development goals, which are the foundation of lifelong success.
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 in the Advancing Informal STEM (Science, Technology, Engineering and Mathematics) Learning program's Innovations in Development track aims to build professional capacity in Informal Science Education (ISE) institutions for effective engagement of Latinx audiences. A collaboration between The Exploratorium and the Children's Discovery Museum (CDM) of San Jose, Cambio is a professional development project based on the premise that developing cultural competence specific to Latinx communities and STEM learning, together with organizational change capacity, will enable ISE institutions to improve their ability to be inclusive of Latinx communities, cultures, and audiences. Cambio's ultimate aim is to broaden participation in STEM by building the ISE field's capacity to effectively engage Latinxs in informal STEM learning. ISE institutions and other out-of-school programs and organizations have an important role to play in inspiring and preparing the next generation of Latinx STEM students, employees, and educators. Cambio participants will deepen their engagement with the research and practice relevant to this role and build an understanding of what broadening Latinx engagement can and should look like in their institutions. Working with expert instructors and coaches, and together as peers, Cambio participants will apply what they learn to real-world strategic initiatives they implement at their home institutions.
The heart of the Cambio project is the creation of a professional development (PD) model for ISE institutions and their staff that synthesizes: (a) current knowledge about strategies for Latinx engagement in informal STEM learning; (b) previous NSF-funded projects that leveraged that knowledge to chart a way forward for the field; and (c) CDM's Cultural Competence Learning Institute professional development program for building cultural competence, inclusion, and organizational change in museums. This synthesis will form a robust professional development platform that has the potential to create a field-wide shift in the way informal science institutions approach working with Latinx audiences. The Cambio professional development program will include: a new professional development framework and curriculum that will reach 54 practitioners in 15 institutions; the development and dissemination of professional development tools and resources for use by ISE practitioners; a Community of Practice focused on Latinx engagement in informal STEM learning; evidence of the efficacy of the Cambio PD model; and knowledge generated by formative and summative evaluation that will inform other ISE efforts focused on increasing the participation of Latinxs in STEM. A STEM focus will be woven throughout the professional development experience that focuses explicitly on areas of intersection between Latinx culture and identities and STEM. Practitioners will increase their expertise in designing experiences that will invoke emotional engagement, spark curiosity and excitement, in ways that explicitly value Latinx identities.
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.