This application requests support to enable a team of experienced science educators and biomedical and behavioral health network scientists to develop and implement the Worlds of Connections curriculum. Most middle school students are familiar with patient care-related health careers (e.g., nurses, dentists, surgeons), but few know about emerging careers in network science that can be leveraged to improve population health. This innovative and research-based science program is strategically designed to increase awareness of, understanding of, and interest in the important role of network science for health. This project will design learning activities that incite interest in network science applications to biomedical and public health research. The long- term goal is to enhance the diversity of the bio-behavioral and biomedical workforce by increasing interest in network science among members of underrepresented minority communities and to promote public understanding of the benefits of NIH-funded research for public health. The goal of this application is to identify and create resources that will overcome barriers to network science uptake among underserved minority middle school youth. The central hypothesis is that the technology-rich field of network science will attract segments of today’s youth who remain uninterested in conventional, bio-centric health fields. Project activities are designed to improve understanding of how informal STEM experiences with network science in health research can increase STEM identities, STEM possible selves, and STEM career aspirations among youth from groups historically underrepresented in STEM disciplines at the center of health science research (Aim 1) and create emerging media resources via augmented reality technologies to stimulate broad interest in and understanding of the role of network science in biomedical and public health research (Aim 2). A team led by University of Nebraska-Lincoln sociologists will partner with the University of Nebraska at Omaha; state museums; centers for math, science, and emerging media arts; NIH-funded network scientists; educators; community learning centers at local public schools; learning researchers; undergraduates; software professionals; artists; augmented reality professionals; storytellers; and evaluation experts to accomplish these goals and ensure out of school learning will reinforce Next Generation Science Standards. The Worlds of Connections project is expected to impact 35,250 youth and 20,570 educators in Lincoln and Omaha, Nebraska by: adding network science modules to ongoing 6th-8th-grade afterschool STEM clubs in community learning centers; adding network science for health resources to a summer graduate course on “activating youth STEM identities” for sixth to twelfth grade STEM teachers; connecting teachers with local network scientists; creating free, downloadable, high-quality emerging media arts-enhanced stories; and publishing peer-reviewed research on the potential of network science to attract youth to health careers. Coupled with the dissemination plan, the project design and activities will be replicable, allowing this project to serve as a model to guide other projects in STEM communication.
PUBLIC HEALTH RELEVANCE:
The lack of public understanding about the role of network science in the basic biological and social health sciences limits career options and support for historically underrepresented groups whose diverse viewpoints and questions will be needed to solve the next generation of health problems. The Worlds of Connections project will combine network science, social science, learning research, biology, computer science, mathematics, emerging media arts, and informal science learning expertise to build a series of monitored and evaluated dissemination experiments for middle school science education in high poverty schools. Broad dissemination of the curriculum and project impacts will employ virtual reality technologies to bring new and younger publics into health-related STEM careers.
The goals of this proposal are: 1) to provide opportunities for underrepresented students to consider careers in basic or clinical research by exciting them through an educational Citizen Science research project; 2) to provide teachers with professional development in science content and teaching skills using research projects as the infrastructure; and 3) to improve the environments and behaviors in early childcare and education settings related to healthy lifestyles across the state through HSTA students Citizen Science projects. The project will complement or enhance the training of a workforce to meet the nation’s biomedical, behavioral and clinical research needs. It will encourage interactive partnerships between biomedical and clinical researchers,in-service teachers and early childcare and education facilities to prevent obesity.
Specific Aim I is the Biomedical Summer Institute for Teachers led by university faculty. This component is a one week university based component. The focus is to enhance teacher knowledge of biomedical characteristics and problems associated with childhood obesity, simple statistics, ethics and HIPAA compliance, and the principles of Citizen Science using Community Based Participatory Research (CBPR). The teachers, together with the university faculty and staff, will develop the curriculum and activities for Specific Aim II.
Specific Aim II is the Biomedical Summer Institute for Students, led by HSTA teachers guided by university faculty. This experience will expose 11th grade HSTA students to the biomedical characteristics and problems associated with obesity with a focus on early childhood. Students will be trained on Key 2 a Healthy Start, which aims to improve nutrition and physical activity best practices, policies and environments in West Virginia’s early child care and education programs. The students will develop a meaningful project related to childhood obesity and an aspect of its prevention so that the summer institute bridges seamlessly into Specific Aim III.
Specific Aim III is the Community Based After School Club Experiences. The students and teachers from the summer experience will lead additional interested 9th–12th grade students in their clubs to examine their communities and to engage community members in conducting public health intervention research in topics surrounding childhood obesity prevention through Citizen Science. Students and teachers will work collaboratively with the Key 2 a Healthy Start team on community projects that will be focused on providing on-going technical assistance that will ultimately move the early childcare settings towards achieving best practices related to nutrition and physical activity in young children.
The goal of our research is to identify strengths and weaknesses of high school level science fair and improvements that might enhance learning outcomes based on empirical assessment of student experiences. We use the web-based data collection program REDCap to implement anonymous and voluntary surveys about science fair experiences with two independent groups -- high school students who recently competed in the Dallas Regional Science and Engineering Fair and post high school students (undergraduates, 1st year medical students, and 1st year biomedical graduate students) on STEM education
Learn about how a university-based teacher preparation program, public schools, and local science-focused museums implement an ecological approach to STEM learning in Chicago.
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TEAM MEMBERS:
Daniel BirminghamLara SmetanaHeidi RouleauJenna Carlson
This project, an NSF INCLUDES Design and Development Launch Pilot, managed by the University of Nevada, Reno, addresses the grand challenge of increasing underrepresentation regionally in the advanced manufacturing sector. Using the state's Learn and Earn Program Advanced Career Pathway (LEAP) as the foundation, science, technology, engineering and mathematics (STEM) activities will support and prepare Hispanic students for the region's workforce in advanced manufacturing which includes partnerships with Truckee Meadows Community College (TMCC), the state's Governor's Office of Economic Development, Charles River Laboratories, Nevada Established Program to Stimulate Competitive Research (Nevada EPSCoR) and the K-12 community.
The expected outcomes from the project will inform the feasibility, expandability and transferability of the LEAP framework in diversifying the state's workforce locally and the STEM workforce nationally. Formative and summative evaluation will be conducted with a well-matched comparison group. Dissemination of project results will be disseminated through the Association for Public Land-Grant Universities (APLU), STEM conferences and scholarly journals.
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TEAM MEMBERS:
David ShintaniJulie EllsworthKarsten HeiseRobert StachlewitzRegina Tempel
Arizona State University's Ira A. Fulton Schools of Engineering with the Maricopa County Community Colleges District and K-12 school districts along with industry partners, Honeywell, Intel, and Texas Instruments, and the Helios Education Foundation will implement an NSF Design and Development Launch Pilot to address the broadening participation objectives of enhancing entry and persistence of underrepresented groups in engineering. This alliance will identify and develop effective mechanisms to impact entry and persistence in engineering at scale and to expand the effort for the region, serving as a model for Arizona and other universities nationally. Diversity is often seen as a valuable commodity for fostering innovation and creativity in engineering, and extant theoretical and empirical literature provides evidence of the importance a diversified engineering workforce can have to spark scientific and technological innovation to solve complex problems. Nationally, there is a consistent shortage of available diverse engineers and scientists, which is believed to compromise the country's ability to sustain its leadership position as a global force. This project will create engineering pathways for underrepresented groups and identify and develop effective mechanisms that impact these students' entry and persistence in engineering.
A total of 500 high school students, 100 2-year college students, and 200 four-year college students will participate in the project. The research measures will focus on students' academic/career awareness and interest in engineering and the degree to which students develop a strong identity and affinity for engineering. It is expected that the alliance affiliates will develop into adaptive systems that respond to needs of first-generation students at various pathway junctures. This project has the potential to transform educational experiences and support systems for first-generation students.
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TEAM MEMBERS:
Kyle SquiresRoberta Anslow-HammondMaria ReyesJames CollofelloTirupalavanam Ganesh
The University of Texas at Austin's Texas Advanced Computing Center, Chaminade University of Honolulu (CUH), and the Georgia Institute of Technology will lead this NSF INCLUDES Design and Development Launch Pilot (DDLP) to establish a model for data science preparation of Native Hawaiian and Pacific Islander (NHPI) students at the high school and undergraduate levels. The project is premised on the promise of NHPI communities gaining access to, and the ability to work with, large data sets to tackle emerging problems in the Pacific. Such agency over "big data" sets that are relevant to Pacific issues, and contemporary skills in data science, analytics and visualization have the potential to be transformative for community improvement efforts. The effort has the potential to advance knowledge, instructional pedagogy and practices to improve NHPI high school and undergraduate students performance in and attraction to STEM education and careers.
The project team will work to: 1) Increase interest and proficiency in data science and visualization among NHPI high school and undergraduate students through a summer immersion experience that bridges computation and culture; 2) Build data science capacity at an NHPI serving undergraduate institution (CUH) through creation of a certificate program; and 3) Develop and expand partnerships with other organizations with related goals working with NHPI populations. The month-long summer training for 20 NHPI college students, and five NHPI high school students, takes place at CUH and focuses on data science, visualization, and virtual reality, including working on problem sets that require data science approaches and incorporate geographically, socially- and culturally-relevant research themes.
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TEAM MEMBERS:
Kelly GaitherRosalia Gomez
resourceprojectProfessional Development, Conferences, and Networks
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
This NSF INCLUDES Design and Development Launch Pilot, "Expanding Diversity in Energy and Environmental Sustainability (EDEES)", will develop a network of institutions in the United States mid-Atlantic region to recruit, train, and prepare a significant number of underrepresented, underserved, and underprivileged members of the American society in the areas of alternative energy generation and environmental sustainability. Researchers from Delaware State University (DSU) will lead the effort in collaboration with scientists and educators from the University of Delaware, Delaware Technical Community College, University of Maryland, and Stony Brook University. The program comprises a strong educational component in different aspects of green energy generation and environmental sciences including the development of a baccalaureate degree in Green Energy Engineering and the further growth of the recently established Renewable Energy Education Center at our University. The program comprises an active involvement of students from local K-12 institutions, including Delaware State University Early College High School. The character of the University as a Historically Black College (HBCU) and the relatively high minority population of the region will facilitate the completion of the goal to serve minority students. The program will also involve the local community and the private sector by promoting the idea of a green City of Dover, Delaware, in the years to come.
The goal of EDEES-INCLUDES pilot comprises the enrollment of at least twenty underrepresented minority students in majors related to green energy and environmental sustainability. It also entails the establishment of a baccalaureate degree in Green Energy Engineering at DSU. The program is expected to strengthen the pathway from two-year energy-related associate degree programs to four-year degrees by ensuring at least five students/year transfer to DSU in energy-related programs. The pilot is also expected to increase the number of high school graduates from underrepresented groups who choose to attend college in STEM majors. Based on previous experience and existing collaborations, the partner institutions expect to grow as an integrated research-educational network where students will be able to obtain expertise in the competitive field of green energy. The pilot program comprises a deep integration of education and research currently undergoing in the involved institutions. In collaboration with its partner institutions, DSU plans to consistently and systematically involve students from the K-12 system to nurture the future recruitment efforts of the network. A career in Green Energy Engineering is using and expanding up existing infrastructure and collaborations. The program will involve the local community through events, workshops and open discussions on energy related fields using social networks and other internet technology in order to promote energy literacy.
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TEAM MEMBERS:
Aristides MarcanoMohammed KhanGulnihal OzbayGabriel Gwanmesia
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
Many urban universities offer precollege STEM programs aimed at broadening participation in STEM. These programs are designed to increase students' scientific content knowledge and skills, promote STEM engagement, increase self-efficacy, and prepare underserved and underrepresented minority high school students for success in undergraduate programs. However, even after demonstrating significant knowledge gains and success in these programs, students are often unable to authenticate their knowledge gains to receive favorable consideration on college applications. In fact, there is currently no systematic credentialing mechanism to assess and validate the scientific rigor of and competency gains within STEM precollege programs for college admissions purposes. This NSF INCLUDES Design and Development Launch Pilot seeks to address this gap by developing and testing credentialing and badging processes for four STEM precollege programs. Working with College Admissions Officers and project partners, the University of Pittsburgh endeavors to employ a collaborative impact approach to build and document the collaborative infrastructure needed to support STEM precollege program authentication processes. This will seed the development of a networked improvement community that supports all aspects of the work from participant support to the collaborative impact to the greater network of urban education university ecosystems involved in the pilot.
Over a two-year period, this pilot will examine a mechanism to strengthen the STEM pathway for disadvantaged and underrepresented minority students to enter postsecondary STEM programs and eventually STEM careers. Building on two social innovation theories, the technical approach will focus on four specific aims: (1) create a community engagement framework to recruit underserved and underrepresented high school students to STEM precollege programs, (2) develop a STEM Success Matrix that identifies student competencies acquired in precollege programs that prepare students for collegiate success in STEM, (3) credential precollege programs using the STEM Success Matrix, and (4) develop a student badging system for precollege program participants using the STEM Success Matrix. Four University of Pittsburgh STEM precollege programs will serve as the context for development and testing with support from a range of partners representing the broader Pittsburgh STEM ecosystem. Approximately 300 high school students are expected to participate in the pilot, across the four precollege programs. Data will be collected via participant surveys and interviews. Formative and summative evaluations will be conducted by an experienced, external evaluator. Shareable metrics, tools, and processes will be developed and disseminated using various platforms and mechanisms. If successful, this pilot could be transformative - changing admissions considerations by credentialing STEM precollege programs and increasing student interest and motivation in STEM through student badging. It would also transform the STEM ecosystem of underserved and underrepresented minority students by creating an important STEM pathway from precollege to undergraduate admissions and ultimately, STEM Careers. This pilot could serve as a baseline for a more expansive alliance with other urban education ecosystems or assisting others interested in establishing their own collaborative infrastructure and networked improvement community model to achieve similar results.
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TEAM MEMBERS:
Alison Slinskey LeggJennifer IritiDavid BooneAlaine AllenLori Delale-O'Connor
This project is a Design and Development Launch Pilot (DDLP) of the NSF INCLUDES program. The goal of the project is to enhance the knowledge and applicability of science, technology, engineering, and mathematics (STEM) for a broad cross-section of people living in the U.S,-Affiliated Pacific Islands. The focus will be on water resources, which is an extremely important topic for this region and equally relevant nationally. The project will engage local community groups and schools in water monitoring, sampling, and analysis, in order to promote the benefits of science education and careers among a population that is underrepresented in these areas. Moreover, the project will improve the capabilities of the island residents for making decisions about sustainable use and protection of these scarce resources. A functioning network will be established among the islands that will have a positive impact on the health and well-being of the residents.
This project will use water as a highly relevant topic in order to involve a wide range of individuals in both general STEM learning and the basic scientific principles as applied to water resources. Specific aspects include engaging K-12, higher education, informal educators and community members to manage water resources in a sustainable fashion that will reduce disaster risk. In addition, the project will empower local communities through water literacy to make better informed, evidence-based decisions that balance the needs of diverse stakeholder groups. The overarching goal is to further advance the inclusion of underrepresented learners in STEM fields. Benefits to society will accrue by: increasing STEM learning opportunities for ~6,500 students from underserved and underrepresented Indigenous Pacific Islanders that will enhance their eligibility for STEM careers; building community resiliency through a collective impact network to resolve emerging water crises; and fostering collaboration among different constituencies in remote communities to make better-informed decisions that reflect the needs and constraints of diverse interests.