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1. Educating the Next Generation of Cybersecurity Experts

   Katerina Goseva-Popstojanova, West Virginia; Robin A.M. Hensel, West Virginia (July 2021, 2021 ASEE Virtual Annual Conference Content Access, Virtual Conference)

   null (Ed.)

   The overall goal of the NSF Division of Undergraduate Education (DUE) S-STEM funded "Attracting and Cultivating Cybersecurity Experts and Scholars through Scholarships" (ACCESS) program is to increase Cybersecurity-related STEM degree completion of low-income, high-achieving undergraduate students with demonstrated financial need and to generate knowledge about academic success, retention, persistence, graduation, and career pathways of these students to improve the education of future STEM workers. Specifically, ACCESS aims to contribute towards addressing the tremendous governmental and industry need for highly skilled cybersecurity experts. Program objectives include: (1) increasing annual enrollment of students in the B.S. in Computer and Information Sciences programs with specialization in Cybersecurity; (2) enhancing curricular and extra-curricular student support services and activities for students; (3) strengthening the partnerships with computer and information technology employers; and (4) investigating the impact of the curricular and co-curricular activities on student success. While significant research has been done relative to student success, retention, and persistence to graduation in STEM fields, cybersecurity is a new field of study and factors affecting student recruitment, academic success, retention, persistence to graduation within this field are not known. In year 1, students were recruited, applications were evaluated, and scholarships were awarded to nine academically talented students, beginning fall 2020. Of these students, four are female (one is from an underrepresented minority population) and five are male (three are from underrepresented minority populations). The students engage in a set of co-curriculum activities, including participation in: outreach activities; technical and career development seminars; a cybersecurity-focused student organization; and potentially, cybersecurity undergraduate research and summer internship opportunities. The paper and poster describe the background of the ACCESS program, recruitment and selection of ACCESS scholarship recipients, project activities, and challenges presented by the COVID-19 pandemic. 

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2. Comparative Study of the Intersection of Engineering Identify and Black Identity of African-American Engineering Students at a PWI and an HBCU

   Berhan, L.; Kumar, R.; Goodloe, M.; Jones, J.; Adams, A. (June 2018, ASEE annual conference & exposition)

   This interdisciplinary, inter-institutional research initiation project is motivated by the need to develop practical strategies for broadening the participation of African American students in engineering. The central objective of the project is to conduct a comparative study of the factors affecting the success and pathways to engineering careers of African American students at a Predominantly White Institution (PWI), the University of Toledo, and a Historically Black University (Alabama Agricultural and Mechanical University). Through this research we hope to gain insight into the factors affecting the social and academic well-being of students at PWIs and HBCUs from a psychological and anthropological perspective. For students from underrepresented groups in STEM at both HBCUs and PWIs it is generally recognized that social capital in the form of familial, peer and mentor support is critical to persistence in their major field of study. However, the role that embedded networks within student groups in general, and minority engineering affinity groups in particular, play in engineering students’ identity formation and academic success is not well understood. It is also not clear how other factors including institutional support and the attitudes and beliefs of faculty and staff toward underrepresented minority students affect the ability of these students to integrate into the social and academic systems at their institutions and how these factors influence the formation and development of their identities as engineers. Here we report on the role of membership in organizations for underrepresented minority engineering students such as the National Society of Black Engineers (NSBE) in contributing to the interlinking of personal and professional identities, and to the career pathways of African American students enrolled in PWI and HBCU, respectively. 

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3. Atlanta Code Warriors: A CS Engagement Pilot Initiative

   https://doi.org/10.1007/978-3-030-30712-7_25  

   Huff, E.W; Nias, J; Cummings, R.T; Mack, N.A; Gosha, K. (January 2019, Proceedings of the HCI International 2019 Conference on Human-Computer Interaction)

   The STEM workforce is vastly growing, however, underrepresented groups only account for under 12% of those in science and engineering occupations and for many in these jobs and industries, a 4 year degree is the most reasonable path. It is through this research that we seek to focus and address the challenges that inhibit minority populations in K-12 levels from the motivation and preparation that will align them with future computer science/IT college and career pathway (CSTEM) career fields. Prior research has shown that beliefs around self identity in STEM fields can positively impact behavior and achievement of students in computing disciplines, while increasing African American students belonging can decrease the student achievement gap. The initiatives presented in this paper seek to leverage the inherent value of minority student presence on the campus of a Historically Black institution as a means to normalize student perception of college access and future C-STEM identity 

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4. BOARD # 287: NSF S-STEM: Advancing STEM Undergraduate Success and Persistence through Scholarship, Mentorship, and Increased Sense of Belonging

   https://doi.org/10.18260/1-2--55651  

   Chang, Jen-Mei; Trajkovic, Jelena; Galvez, Gino (June 2025, ASEE Conferences)

   This paper examines the impact of a National Science Foundation Scholarships in Science, Technology, Engineering, and Mathematics (NSF S-STEM) Program at a large, Minority-Serving institution in the western U.S. Despite growing efforts to diversify STEM fields, underrepresented minority (URM) students continue to face significant challenges in persistence and success. This scholarship program addresses these challenges by providing financial support, faculty and peer mentorship, and skills development opportunities to academically talented and low-income URM STEM students. This study evaluates how participation in the program enhances key noncognitive skills, such as students' sense of belonging, leadership and collaboration skills, and science identity, which are critical to STEM persistence. Using both survey and university-based data among the 47 participating scholars, results reveal that program participants report strong levels of sense of belonging, high efficacy in leadership and collaboration skills, and strong science/math identities. Additionally, compared to university rates, scholarship students showed above-average retention and graduation rates, with the majority pursuing graduate studies or careers in STEM. These findings highlight the importance of comprehensive support programs that integrate financial aid, mentorship, and professional development to promote persistence and success among URM students in STEM fields. 

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5. Enhancing the Success of Minority STEM Students by Providing Financial, Academic, Social, and Cultural Capital

   Enriquez, A. G.; Lipe, C. B.; Price, B. (June 2017, ASEE annual conference & exposition)

   Research has shown that student achievement is influenced by their access to, or possession of, various forms of capital. These forms of capital include financial capital, academic capital (prior academic preparation and access to academic support services), cultural capital (the attitudes, knowledge, and behaviors related to education which students are exposed to by members of their family or community), and social capital (the resources students have access to as a result of being members of groups or networks). For community college students, many with high financial need and the first in their families to go to college (especially those from underrepresented minority groups), developing programs to increase access to these various forms of capital is critical to their success. This paper describes how a small federally designated Hispanic-serving community college has developed a scholarship program for financially needy community college students intending to transfer to a four-year institution to pursue a bachelor’s degree in a STEM field. Developed through a National Science Foundation Scholarships in Science, Technology, Engineering, and Mathematics (S-STEM) grant, the program involves a collaboration among STEM faculty, college staff, administrators, student organizations, and partners in industry, four-year institutions, local high schools, and professional organizations. In addition to providing financial support through the scholarships, student access to academic capital is increased through an intensive math review program, tutoring, study groups, supplemental instruction, and research internship opportunities. Access to cultural and social capital is increased by providing scholars with faculty mentors; engaging students with STEM faculty, university researchers, and industry professionals through field trips, summer internships, professional organizations, and student clubs; supporting student and faculty participation at professional conferences, and providing opportunities for students and their families to interact with faculty and staff. The paper details the development of the program, and its impact over the last five years on enhancing the success of STEM students as determined from data on student participation in various program activities, student attitudinal and self-efficacy surveys, and academic performance including persistence, retention, transfer and graduation. 

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