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1. Board 317: Institutional Practices to Close the Equity Gap

   https://doi.org/10.18260/1-2--46896  

   Cline, EC; Dillon, Heather; Sesko, Amanda; Nahmani, Marc; Kmail, Zaher; Dinglasan-Panlilio, Joyce; Lee, Seung-Jin; Cilli-Turner, Emily; Björling, Elin (June 2024, ASEE Conferences)

   The S-STEM supported program “Achieving Change in our Communities for Equity and Student Success” (ACCESS) in STEM started at the University of Washington Tacoma in 2018 and has supported 108 students over 6 cohorts. University of Washington Tacoma has been designated an Asian American and Native American Pacific Islander-serving institution (AANAPISI) due to our high proportion of racial minority and first generation college students. The program is multidisciplinary across STEM majors including Mathematics, Environmental Science, Biomedical Sciences, Information Technology, Computer Science and Systems, Computer Engineering and Systems, Electrical Engineering, Mechanical Engineering, and Civil Engineering, with Computer Science, IT and Engineering representing 65% of ACCESS scholars to date. Program scholars receive full scholarships for their first two years, and partial scholarships for their third and fourth years. We provide a summer bridge precalculus or research experience course, and project-based Introduction to Engineering or Introduction to Research courses in students’ first year. Individual faculty mentoring, an on-campus STEM living learning community,and quarterly Success in STEM seminar courses help scholars form a cohesive community through group mentoring, to promote a sense of belonging, identity, and empowerment in the STEM community. Our S-STEM program is distinctive in focusing on pre-STEM majors in their first and second years on campus to facilitate the entry into STEM majors, and we provide mentor training for ~30-40 faculty in teaching and mentoring diverse student populations, thus impacting all students in our majors. Our goal was to evaluate how retention and academic success of our program scholars was impacted by the program, and whether this program helps to close equity gaps for students who identify as low socioeconomic status, underrepresented minorities, women or non-binary, or first generation in college . We also evaluated the impact of the program for students before, during, and after the Covid-19 pandemic. We compared our program scholars to a comparison group of students who met eligibility requirements but did not participate in the program. Overall, program scholars had higher first and second year retention, and significantly higher GPAs, particularly for individuals belonging to groups that are historically underrepresented in STEM. Retention was markedly higher for program scholars during the pandemic, suggesting that the program may have been particularly impactful for students as they endured the emotional and financial stresses of the pandemic. 

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2. Promoting Academic Success of Economically Disadvantaged, STEM-Interested, First- and Second-Year Undergraduate Students via the ACCESS in STEM Program at University of Washington Tacoma

   Cline, E.T. (July 2021, Understanding Interventions Journal)

   We are facing a national challenge of low retention rates for STEM-interested students. At the University of Washington Tacoma (UWT), a public, predominantly undergraduate, minority-serving institution (Asian-American, Native American, Pacific Islander, AANAPISI), only 28% of high achieving (high school GPA>3.0), STEM-interested at entry, Pell-eligible, first-time-in-college (FTIC) students undergraduates have entered a STEM major by the beginning of their 2nd yr, and the proportion is significantly lower for PEERs (persons excluded from STEM due to ethnicity or race [Asai, 2020]) at only 16%, representing a substantial equity gap. To address this problem, we developed the Achieving Change in our Communities for Equity and Student Success (ACCESS) in STEM Program. Supported by an NSF S-STEM grant since 2018, the program supports low-income, STEM-interested students by providing focused mentoring, a living learning community, a course-based research experience in their first year, and scholarships in their first two years of college. Based on the Student Persistence model of Graham et al. (2013), we hypothesized that these interventions would increase retention, academic performance, and progress into and through STEM majors. Our approach builds upon existing research demonstrating the importance of early research experiences (Thiry et al., 2012) and intensive mentoring and community building, particularly in the context of AANAPISI institutions (Nguyen et al., 2018). 

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3. Work in Progress: Development of a Bootcamp for Freshman Student Success During COVID-19 Transition

   https://doi.org/10.18260/1-2--48348  

   Vargas_Hernandez, Noe; Fuentes, Arturo; Ortega, Javier; Benitez, Laura; Orozco-Leonhardt, Edna (June 2024, ASEE Conferences)

   Assessment results show that passing rates in introductory courses and retention rates of first year students in the College of Engineering and Computer Science at The University of X, a predominantly Hispanic Serving Institution (HSI), significantly dropped with the onset of COVID-19. These results and trends highlight the academic preparation of incoming students, particularly the new cohort of underrepresented Hispanic students from underserved and challenged communities in the region, who may not have the necessary skills (e.g., adaptability, persistence, and performance) for the rigor of engineering education. To address this challenge, an onboarding “boostcamp” was created for incoming and transfer students to bridge the transition from secondary education to higher education. The boostcamp primes students to overcome academic deficiencies, develop a critical skills portfolio, learn problem-solving techniques, build a sustainable community of mentoring support with faculty and students, and gain a template to sustain academic and professional success during their undergraduate education. The paper presents the boostcamp's design process steps, including curricular analysis, identification of areas for improvement, skills inventory, and blueprinting, as well as its initial implementation in the mechanical engineering program. The boostcamp was organized over a week and featured hands-on engineering activities, faculty and student talks, and engineering lab tours. It was based on a design thinking approach and structured around Challenge-based Instruction, innovation, design, and mentoring. Daily activities focused on promoting critical thinking, assertiveness in the face of adversity, informed decision-making, and task prioritization. Results indicate that the boostcamp increased student confidence and established a valuable network system among participants. Future work will focus on expanding the boostcamp to include students from other engineering and computer science departments and developing a template for other institutions with similar challenges. 

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4. Board 267: Engineering a Transfer Friendly Experience with Alternative Pathways to Excellence

   https://doi.org/10.18260/1-2--42719  

   Acton, Katherine; Besser, Deborah; Nepal, Kundan; Holte, Jennifer (June 2023, ASEE Conferences)

   The Alternative Pathways to Excellence (APEX) program at the University of St. Thomas is an NSF funded S-STEM Track 2 project that seeks to strengthen efforts to recruit and retain STEM transfer students by integrating financial, academic, and practical supports. The APEX program provides student support services, formal and informal mentoring, curricular and co-curricular supports, and cohort building activities all formulated to create accessible pathways into engineering careers for a population of academically talented students with low income and high unmet financial need. The goals of this program are to increase recruitment by partnering with five regional community colleges, to award S-STEM scholarships of up to $10,000 annually to cohorts of 4-6 students each year, to increase retention by developing retention-friendly supports, and to graduate APEX scholars who go on to meaningfully contribute to fueling innovation in industry and/or academic post-graduate study. Generation of knowledge is based on studying the APEX program as a model and evaluating qualitative and quantitative data surrounding students’ successful transitions to a four-year institution. Program evaluation is focused on understanding how well APEX recruitment strategies contribute to increasing the number of low income and underrepresented students who transfer into the University of St. Thomas Engineering program and understanding the extent to which retention efforts are most beneficial to retaining students. In this work, we showcase initial program activities, and the initial results based on the first year of study and our first cohort of scholars. 

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5. BOARD # 380: Innovative and Meaningful Mentoring to Enhance Retention, Success, and Engagement in STEM, an NSF S-STEM project

   https://doi.org/10.18260/1-2--55753  

   Hein, Emilie; Hough, Rick (June 2025, ASEE Conferences)

   Innovative and Meaningful Mentoring to Enhance Retention, Success, and Engagement (IMMERSE) in STEM supports the retention and graduation of high-achieving, low- income students with demonstrated financial need at Skyline College, a two-year Hispanic Serving Institution situated in Silicon Valley, a hub of STEM innovation with many high-demand jobs. Over its 5-year duration, this project will fund 90 scholarships to at least 30 students who are advancing toward an associate degree or transfer to a four-year university to earn a degree in Biology, Biotechnology, Chemistry, Computer Science, Engineering, Mathematics, or Physics. IMMERSE in STEM is now in its second year and has supported 25 scholars, including 4 who have transferred to a 4-year university. All students receive up to three years of support. In addition to scholarships, the project incorporates a transformative approach to mentoring, and innovative supports intended to address financial and academic barriers. All participating students engage in a comprehensive set of evidence-based co-curricular services designed to support their persistence, completion, and transfer. Faculty mentors are trained on innovative and effective approaches to student retention and success, such as the implementation of ePortfolios. The overall goal of this project is to increase the STEM degree completion of low-income, high- achieving undergraduates with demonstrated financial need. There are three specific aims: 1) leverage existing high-impact, evidence-based processes already implemented on campus (such as ePortfolios and undergraduate research opportunities); 2) implement a cohesive multi-layer mentorship program to increase retention, student success, and graduation of scholars; 3) expand industry partnerships in association with workforce development programs to support the scholars’ academic and career opportunities with mentoring and internships. The high cost of attendance in the San Francisco Bay Area leads to high unmet financial needs, and leads students to seek part-time or full-time employment while they are in college. By combining financial assistance with specific practices, such as multi-tiered mentoring, ePortfolio adoption or participation in co-curricular activities, we have observed the impact on the retention and success rates of underrepresented minorities in STEM. This work is supported by the NSF S-STEM program under award number 2221696. 

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