The National Federation of the Blind (NFB), in partnership with scholars from Utah State University and educators from the Science Museum of Minnesota (SMM), has developed the Spatial Ability and Blind Engineering Research (SABER) project to assess and improve the spatial ability of blind teens in order to broaden the participation of blind students in STEM fields.
Activities began this summer (2018) with a week-long, residential engineering design program for thirty blind high school students at NFB headquarters in Baltimore. The evaluation focused on perceptions of process and measures of
This poster was presented at the 2019 AISL PI Meeting in Washington, DC. It provides an overview of a project designed to broaden participation of blind students in engineering fields through the development of spatial ability skills and the showcasing of nonvisually accessible teaching methods and techniques.
The University of Maine will address the grand challenge of increasing Native American participation in the science,technology, engineering and mathematics (STEM) enterprise in an NSF INCLUDES Design and Development Launch Pilot project addressing culturally relevant pedagogy, incorporating Community Elders, Cultural Knowledge Keepers, and mainstream secondary and higher education institutions in the development of STEM pedagogy that can be replicated to other underrepresented and underserved populations. Partners in the effort include the Wabanaki Youth in Science program (WaYS)(a non-profit organization), Salish Kootenai College (a Tribal College), Massachusetts Institute of Technology (a research university), the National Indian Education Association (a non-profit membership organization) and the current NSF INCLUDES Design and Development Launch Pilot project at the University of Maine (the Stormwater Research Management Team (SMART)). This NSF INCLUDES partnership provides students with evidence-based STEM activities involving culturally relevant internships, mentoring, STEM professional development activities and other support. Non-native students will reciprocally participate in Native American learning environments.
The foundation for the project's activities is based on the WaYS program in science education that incorporates Traditional Ecological Knowledge (TEK). The goals of the project are to: 1) create and integrate curriculum that embraces TEK and western science as equal partners; 2)develop and implement protocols to incorporate a continued mentorship program for WaYS and STREAM engineering students; 3)develop a framework to bridge the gap between high school and college; and 4) foster collaboration among Community Elders, Cultural Knowledge Keepers and University of Maine faculty in a model that could be transferred to other communities. Internal and external evaluation activities will add to the scholarly literature on educating Native Americans and non-native students in STEM disciplines. Dissemination of project results will include published peer-reviewed journal articles on newly developed pedagogy and conference presentations at the American Indian Science and Engineering (AISES) national conference, the National Diversity in STEM Conference, National Science Teachers Association, AAAS, ASEE and the National NSF INCLUDES Network.
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TEAM MEMBERS:
Darren RancoJohn DaigleMindy CrandallShaleen Jain
Improving retention rates in postsecondary engineering degree programs is the single most effective approach for addressing the national shortage of skilled engineers. Both mathematics course placement and performance are strong graduation predictors in engineering, even after controlling for demographic characteristics. Underrepresented students (e.g., rural students, low-income students, first-generation students, and students of color) are disproportionately represented in cohorts that enter engineering programs not yet calculus-ready. Frequently, the time and cost of obtaining an engineering degree is increased, and the likelihood of obtaining the degree is also reduced. This educational problem is particularly acute for African American students who attended select high schools in South Carolina, with extremely high-poverty rates. As a result, the investigators proposed an NSF INCLUDES Launch Pilot project to develop a statewide consortium in South Carolina - comprising all of the public four-year institutions with ABET-approved engineering degree programs, all of the technical colleges, and 118 high schools with 70% or higher poverty rates, to pinpoint and address the barriers that prevent these students from being calculus ready in engineering.
This NSF INCLUDES Launch Pilot project will map completion/attrition pathways of students by collecting robust cross-sectional data to identify and understand the complex linkages between and behind critical decisions. Such data have not been available to this extent, especially focused on diverse populations. Further, by developing structural equation models (SEMs), the investigators will be able to build on extant research, contributing directly to understanding the relative impact of a range of latent variables on the development of engineering identity, particularly among African American, rural, low-income, and first-generation engineering students. Results of the pilot interventions are likely to contribute to the empirical and theoretical literature that focus on engineering persistence among underrepresented populations. Project plans also include developing a centralized database compatible to the Multiple Institution Database for Investigation of Engineering Longitudinal Development (MIDFIELD) project to share institutional data with K-12 and postsecondary administrators, engineering educators, and education researchers with NSF INCLUDES projects and beyond.
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TEAM MEMBERS:
Anand GramopadhyeDerek BrownEliza GallagherKristin Frady
resourceprojectProfessional Development, Conferences, and Networks
EvaluATE is a national resource center dedicated to supporting and improving the evaluation practices of approximately 250 ATE grantees across the country. EvaluATE conducts webinars and workshops, publishes a quarterly newsletter, maintains a website with a digital resource library, develops materials to guide evaluation work, and conducts an annual survey of ATE grantees. EvaluATE's mission is to promote the goals of the ATE program by partnering with projects and centers to strengthen the program's evaluation knowledge base, expand the use of exemplary evaluation practices, and support the continuous improvement of technician education throughout the nation. EvaluATE's goals associated with this proposal are to: (1) Ensure that all ATE Principal Investigators and evaluators know the essential elements of a credible and useful evaluation; (2) Maintain a comprehensive collection of online resources for ATE evaluation; (3) Strengthen and expand the network of ATE evaluation stakeholders; and (4) Gather, synthesize, and disseminate data about the ATE program activities to advance knowledge about ATE/technician education. The Center plans to produce a comprehensive set of evaluation resources to complement other services, engaging several community college-based Principal Investigators and evaluators in that process.
EvaluATE's products are informed by current research on evaluation, the National Science Foundation's priorities for the evaluation of ATE grants, and the needs of ATE PIs and evaluators for sound guidance that is immediately relevant and usable in their contexts. The fundamental nature of EvaluATE's work is geared toward supporting ATE grantees to use evaluation regularly to improve their work and demonstrate their impacts. All of EvaluATE's products are available to the public. EvaluATE's findings from the annual survey of ATE grantees aid in advancing understanding of the status of technician education and illuminate areas for additional research. The new survey investigates ATE grantees' work to serve underrepresented and special populations, including women, people of color, and veterans. Survey data are available upon request for research and evaluation purposes.
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TEAM MEMBERS:
Lori WingateArlen GullicksonEmma PerkKelly RobertsonLyssa Becho
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.
To reach its full potential in science, technology, engineering, and mathematics (STEM), the United States must continue to recruit, prepare and maintain a diverse STEM workforce. Much work has been done in this regard. Yet, underrepresentation in STEM fields persists and is especially pronounced for Hispanic STEM professionals. The Hispanic community is the youngest and fastest growing racial/ethnic group in the United States but comprises only seven percent of the STEM workforce. More evidence-based solutions and innovative approaches are required. This project endeavors to address the challenges of underrepresentation in STEM, especially among individuals of Hispanic descent, through an innovative approach. The University of San Diego will design, develop, implement, and test a multilayered STEM learning approach specific to STEM learning and workforce development in STEM fields targeting Hispanic youth. The STEM World of Work project will explore youth STEM identity through three mechanisms: (1) an assessment of their individual interests, strengths, and values, (2) exposure to an array of viable STEM careers, and (3) engagement in rigorous hands-on STEM activities. The project centers on a youth summer STEM enrichment program and a series of follow-up booster sessions delivered during the academic year in informal contexts to promote family engagement. Paramount to this work is the core focus on San Diego's Five Priority Workforce Sectors: Advanced Manufacturing, Information and Communications Technology, Clean Energy, Healthcare, and Biotech. Few, if any, existing projects in the Advancing Informal STEM learning portfolio have explored the potential connections between these five priority workforce sectors, informal STEM learning, and identity among predominately Hispanic youth and families engaged in a year-long, culturally responsive STEM learning and workforce focused program. If successful, the model could provide a template for the facilitation of similar efforts in the future.
The STEM World of Work project will use a mixed-methods, exploratory research design to better understand the variables influencing STEM learning and academic and career choices within the proposed context. The research questions will explore: (1) the impacts of the project on students' engagement, STEM identity, STEM motivation, and academic outcomes, (2) factors that moderate these outcomes, and (3) the impact the model has on influencing youths' personal goals and career choices. Data will be garnered through cross-sectional and longitudinal surveys and reflective focus groups with the students and their parents/guardians. Multivariate analysis of variance, longitudinal modeling, and qualitative analysis will be conducted to analyze and report the data. The findings will be disseminated using a variety of methods and platforms. The broader impacts of the findings and work are expected to extend well beyond the project team, graduate student mentors, project partners, and the estimated 120 middle school students and their families from the predominately Hispanic Chula Vista Community of San Diego who will be directly impacted by the project.
This exploratory pathways 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.
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TEAM MEMBERS:
Perla MyersVitaliy PopovOdesma DalrympleYaoran LiJoi Spencer
This project will develop standardized, exportable and comparable assessment instruments and models for Women In Engineering (WIE) programs nationwide, thus allowing them to assess their program's activities and ultimately provide data for making well-informed evaluations.
To accomplish this goal, the principal investigators at the University of Missouri and Penn State University will work over a three-year period with their institutions' WIE programs and three cooperating programs at Rensselaer Polytechnic Institute, Georgia Tech, and University of Texas at Austin. With these five programs that collectively represent a variety of private and public, years of experience for WIE directors and student body characteristics, the investigators will pilot, revise, implement, conduct preliminary data analysis and disseminate easy-to-access, reliable and valid assessment instruments. The principles of formative evaluation will be applied to all instruments and products. All institutions will use the same set of instruments, thus allowing them to have access to powerful benchmarking data in addition to the data from each of their respective institutions.
A prior project, the Women's Experience in College Engineering Project (WECE) sought to characterize the factors that influence women students' experiences and decisions by studying college environments, events and support programs that affect women's satisfaction with their engineering major, and their decisions to persist or leave these majors. In contrast to WECE's macro-level and student focus, this proposal's target audience is WIE directors, with a focus on WIE programs, not students.
Women in Engineering programs around the United States are a crucial part of our country's response to the need for more women in engineering professions. There are about 50 WIE programs nationwide. Half have expressed interest in this effort. WIE directors will benefit by having ready-made assessment tools that will allow them to collect data on programs, evaluate these programs, and make decisions on how to revise programs and / or redistribute limited resources to maximize overall program effectiveness. Data from these instruments will also provide substantiated evidence for administrators, advisory boards and potential funding agencies. Finally, because these instruments will be available nationwide, programs will have the opportunity to take advantage of powerful benchmarking data for their decision-making processes.
This project provides the next logical step in the national movement to recruit and retain women in engineering.
This poster was presented at the 2016 Advancing Informal STEM Learning (AISL) PI Meeting held in Bethesda, MD on February 29-March 2. The project's goal is to demonstrate an educational model fully commensurate with the demands of the 21st Century workforce, and more specifically, with the emerging “green-tech” economy.
This poster was presented at the 2016 Advancing Informal STEM Learning (AISL) PI Meeting held in Bethesda, MD on February 29-March 2. 'Be a Scientist!' is a full-scale development project that examines the impact of a scalable, STEM afterschool program which trains engineers to develop and teach inquiry-based Family Science Workshops (FSWs) in underserved communities.
'Be a Scientist!' is a full-scale development project that examines the impact of a scalable, STEM afterschool program which trains engineers to develop and teach inquiry-based Family Science Workshops (FSWs) in underserved communities. This project builds on three years of FSWs which demonstrate improvements in participants' science interest, knowledge, and self-efficacy and tests the model for scale, breadth, and depth. The project partners include the Viterbi School of Engineering at the University of Southern California, the Albert Nerken Engineering Department at the Cooper Union, the Los Angeles Museum of Natural History, and the New York Hall of Science. The content emphasis is physics and engineering and includes topics such as aerodynamics, animal locomotion, automotive engineering, biomechanics, computer architecture, optics, sensors, and transformers. The project targets underserved youth in grades 1-5 in Los Angeles and New York, their parents, and engineering professionals. The design is grounded in motivation theory and is intended to foster participants' intrinsic motivation and self-direction while the comprehensive design takes into account the cultural, social, and intellectual needs of diverse families. The science activities are provided in a series of Family Science Workshops which take place in afterschool programs in eight partner schools in Los Angeles and at the New York Hall of Science in New York City. The FSWs are taught by undergraduate and graduate engineering students with support from practicing engineers who serve as mentors. The primary project deliverable is a five-year longitudinal evaluation designed to assess (1) the impact of intensive training for engineering professionals who deliver family science activities in community settings and (2) families' interest in and understanding of science. Additional project deliverables include a 16-week training program for engineering professionals, 20 physics-based workshops and lesson plans, Family Science Workshops (40 in LA and 5 in NY), a Parent Leadership Program and social networking site, and 5 science training videos. This project will reach nearly one thousand students, parents, and student engineers. The multi-method evaluation will be conducted by the Center for Children and Technology at the Education Development Center. The evaluation questions are as follows: Are activities such as recruitment, training, and FSWs aligned with the project's goals? What is the impact on families' interest in and understanding of science? What is the impact on engineers' communication skills and perspectives about their work? Is the project scalable and able to produce effective technology tools and develop long-term partnerships with schools? Stage 1 begins with the creation of a logic model by stakeholders and the collection of baseline data on families' STEM experiences and knowledge. Stage 2 includes the collection of formative evaluation data over four years on recruitment, training, co-teaching by informal educators, curriculum development, FSWs, and Parent Leadership Program implementation. Finally, a summative evaluation addresses how well the project met the goals associated with improving families' understanding of science, family involvement, social networking, longitudinal impact, and scalability. A comprehensive dissemination plan extends the project's broader impacts in the museum, engineering, evaluation, and education professional communities through publications, conference presentations, as well as web 2.0 tools such as blogs, YouTube, an online social networking forum for parents, and websites. 'Be a Scientist!' advances the field through the development and evaluation of a model for sustained STEM learning experiences that helps informal science education organizations broaden participation, foster collaborations between universities and informal science education organizations, increase STEM-based social capital in underserved communities, identify factors that develop sustained interest in STEM, and empower parents to co-invest and sustain a STEM program in their communities.
This poster was presented at the 2014 AISL PI Meeting in Washington, DC. Using STEM America (USA) is a two-year Pathways project designed to examine the feasibility of using informal STEM learning opportunities to improve science literacy among English Language Learner (ELL) students in Imperial County, California.