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1. Supporting Teacher Self-efficacy and TPACK: Teaching Louisiana Wetlands Using Virtual Field Trips

   Olokunde, Temitope; Jones, Nastassia N. (March 2023, Proceedings of Society for Information Technology & Teacher Education International Conference)

   Langran, E.; Christensen, P.; Sanson, J. (Ed.)

   Education about natural environments and their connection to ecosystems has the potential to foster environmental literacy and stewardship. Fostering environmental awareness in students helps them to learn about STEM topics in nature through hands-on classroom lessons with immersive experiences. Virtual reality technology serves as an educational tool that provides immersive learning experiences, which makes it relevant to developing environmental knowledge. This study focuses on Louisiana’s natural environment, particularly the Louisiana wetlands that exist near communities with little to no STEM training opportunities for teachers and students in K-12 schools. A virtual reality themed professional development program was established in Louisiana, to equip STEM teachers with virtual reality skills to immerse students into simulated field experiences of Louisiana wetlands. Integrating virtual reality technology into the teaching of Louisiana wetlands, helps put STEM concepts in a real-world context that is relatable to teachers and students living in these areas. This study draws insight from the teachers’ learning experiences as they participated in the professional development program. 

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2. Board 357: Psychosocial and Skills-Based Outcomes of Participating in Vertically Integrated Projects (VIP)

   https://doi.org/10.18260/1-2--46940  

   Stewart, Craig; Preza, Chrysanthe; Ivey, Stephanie (June 2024, ASEE Conferences)

   Challenge or problem-based learning help students develop deeper content understanding and enhanced STEM skillsets and provide opportunities for learning across multiple contexts. Educational interventions that include active learning, mentoring, and role modeling are particularly important in recruiting and retaining female and minority students in STEM. With this framework in mind, we implemented the Vertically-Integrated Projects (VIP) model at a public urban research university in the 2022-2023 academic year with the goal of helping participating students increase engineering and STEM identity and other psychosocial outcomes. This paper reports the results from the first year of our VIP program. At the beginning and end of the academic year, participants completed measures of engineering identity; engineering self-efficacy; engineering mindset; intention to remain in the engineering major; intention to have a career in engineering; and STEM professional identity. Wilcoxon Signed Ranks (N=10) tests showed no statistically significant differences on any of these measures. Participants also responded to 20 items assessing their perceptions of their level of knowledge and skills in a variety of areas relevant to their experience in the VIP program. Wilcoxon Signed Ranks tests (N=10) revealed some statistically significant differences between pre- and post-test. Specifically, students tended to see themselves as having greater knowledge or skills in planning a long-term project, communicating technical concepts and designs to others, designing systems, components, or processes to meet practical or applied needs, understanding computer hardware and systems, working on a multidisciplinary team, and making ethical decisions in engineering/research. Finally, at the end of the Spring semester, participants rated the extent to which they perceived the VIP program helped them to develop their skills on the same 20 items. Most participants believed the VIP program helped them to develop each skill either somewhat or a great deal. Overall, while participation in the VIP program did not influence student engineering identity, self-efficacy, mindset, or major/career intentions, it was associated with increased self-perceived abilities on six specific skills. Additionally, most participants agreed that the VIP program helped them develop 20 skills at least “somewhat.” 

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3. Perspectives from an Intervention Model to Improve Retention and Success Among Low-income Hispanic Engineering Students

   Jimenez, M; Guillemard, L; Santiago, A; Suarez, O.M.; Bartolomei, S; Santiago, N; Quintero, P; Lopez, C; Cardona, N; Valentin, A. (June 2023, 2023 ASEE Annual Conference & Exposition)

   Improving the level of success of students from low socioeconomic backgrounds in science, technology, engineering, and mathematics (STEM) disciplines has been a prevailing concern for higher education institutions for many years. To address this challenge, a pilot initiative has been implemented with engineering students at the University of Puerto Rico Mayaguez, a recognized Hispanic-serving institution. Over the past four years, the Program for Engineering Access, Retention, and LIATS Success (PEARLS) has brought in an innovative intervention model that combines elements from socio-cognitive career theories and departure studies to impact students' success. PEARLS has established a comprehensive range of tools and services, including mentorship, professional readiness training, research opportunities, scholarships, and peer mentor activities. These efforts have led to impressive outcomes, including a significant increase in retention and persistence rates, increased graduation rates having quad-fold those observed in the general student population, and an impressive record of engagements in industry, research, and leadership experiences. This paper discusses the program structure and outcomes from five perspectives that include background experiences, the structure of provided services, the results of their execution, the elements of knowledge derived from its application, and the challenges experienced throughout its implementation. 

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4. A Novel Multidisciplinary Graduate Education Program in Data Science

   Kuh, Anthony; Santhanam, Narayana; Port, Daniel; Thompson, London; Lee, Mary (July 2025, nternational Joint Conference on Neural Networks)

   There has been an explosion of growth in using AI, data science, and machine learning in all aspects of our daily life. There is a global competition among governments, industry, and academic institutions to lead research and development in this area. This paper discusses a novel multidisciplinary graduate education and research program at our institution to help develop a trained workforce to meet the demands required to understand and develop AI, data science and machine learning technologies. The program brings together faculty and students in engineering, computer science, and social science to build a traineeship program where cohort teams study fundamental and applied data science research, using compact modules across courses to personalize instruction and prepare each trainee with skills tailored to their prior experience and future career goals. 

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5. Scholarship Program Initiative via Recruitment, Innovation, and Transformation

   https://doi.org/10.18260/p.24693  

   Ferguson, Chip; Yanik, Paul; Chang, Guanghsu; Kaul, Sudhir (June 2015, American Society for Engineering Education Annual Conference and Exposition)

   The National Science Foundation’s funded ($625,179) SPIRIT: Scholarship Program Initiative via Recruitment, Innovation, and Transformation at Western Carolina University creates a new approach to the recruitment, retention, education, and placement of academically talented and financially needy engineering and engineering technology students. Twenty-Seven new and continuing students were recruited into horizontally and vertically integrated cohorts that will be nurtured and developed in a Project Based Learning (PBL) community characterized by extensive faculty mentoring, fundamental and applied undergraduate research, hands-on design projects, and industry engagement. Our horizontal integration method creates sub-cohorts with same-year students from different disciplines (electrical, mechanical, etc.) to work in an environment that reflects how engineers work in the real world. Our vertical integration method enables sub-cohorts from different years to work together on different stages of projects in a PBL setting. The objectives of the SPIRIT program will ensure an interdisciplinary environment that enhances technical competency through learning outcomes that seek to improve critical skills such as intentional learning, problem solving, teamwork, management, interpersonal communications, and leadership. Support for the student scholars participating in this program incorporates several existing support services offered by the host institution and school, including a university product development center. This paper will discuss several aspects of the program including participant selection and initial cohort demographics; implementation of the vertical-based cohort model in PBL; program and student assessment models; and associated student activities and artifact collection used to foster student success in the program and after graduation. Successful implementation of the SPIRIT program will create a replicable model that will broadly impact 21st century engineering education and workforce preparedness. 

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