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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. Strategies for Developing, Expanding, and Strengthening Community College Engineering Transfer Programs

   Enriquez, A. ; Langhoff, N. ; Dunmire, E. ; Rebold, T ; Pong, W. ( June 2018 , American Society for Engineering Education)

   Broadening participation in engineering among underrepresented minority students remains a big challenge for institutions of higher education. Since a large majority of underrepresented students attend community colleges, engineering transfer programs at these community colleges can play an important role in addressing this challenge. However, for most community college engineering programs, developing strategies and programs to increase the number and diversity of students successfully pursuing careers in engineering is especially challenging due to limited expertise, shrinking resources, and continuing budget crises. This paper is a description of how a small engineering transfer program at a Hispanic-Serving community college in California developed effective partnerships with high schools, other institutions of higher education, and industry partners in order to create opportunities for underrepresented community college students to excel in engineering. Developed through these partnerships are programs for high school students, current community college students, and community college engineering faculty. Programs for high school students include a) the Summer Engineering Institute – a two-week residential summer camp for sophomore and junior high school students, and b) the STEM Institute – a three-week program for high school freshmen to explore STEM fields. Academic and support programs for college students include: a) Math Jam – a one-week intensive math placement test review and preparation program; b) a scholarship and mentoring program academically talented and financially needy STEM students; c) a two-week introduction to research program held during the winter break to prepare students for research internships; d) a ten-week summer research internship program; e) Physics Jam – an intensive program to prepare students for success in Physics; f) Embedded Peer Instruction Cohort – a modified Supplemental Instruction program for STEM courses; g) STEM Speaker Series – a weekly presentation by professionals talking about their career and educational paths. Programs for community college STEM faculty and transfer programs include: a) Summer Engineering Teaching Institute – a two-day teaching workshop for community college STEM faculty; b) Joint Engineering Program – a consortium of 28 community college engineering programs all over California to align curriculum, improve teaching effectiveness, improve the engineering transfer process, and strengthen community college engineering transfer programs; c) Creating Alternative Learning Strategies for Transfer Engineering Programs – a collaborative program that aims to increase access to engineering courses for community college students through online instruction and alternative classroom models; and d) California Lower-Division Engineering Articulation Workshop – to align the engineering curriculum. In addition to describing the development and implementation of these programs, the paper will also provide details on how they have contributed to increasing the interest, facilitating the entry, improving the retention and enhancing the success of underrepresented minority students in engineering, as well as contributing to the strengthening of the community college engineering education pipeline. 

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3. Expanding Literacy’s Boundaries in K-12 with Cloud Literacy (Work in Progress)

   Billionniere, E. ; Meyer, Lawrence E. ( July 2021 , 2021 ASEE Virtual Annual Conference)

   null (Ed.)

   The migration of infrastructure from on premise installation and maintenance of computing resources to cloud based systems by business of all sizes has been an ongoing event for several years. To minimize capital expenses and allow for demand based operational expenses has increased the need for cloud practitioners with the ability to create and control these resources. The demand for skilled cloud workers ranging from developers to architects has been increasing, and one way to increase the technicians available for these job skills is to start recruitment as early as high school. For high school students interested in the technical side of STEM pathways, the ability to understand, design and work in a cloud environment is now part of critical technical skills. Fluency in cloud and cloud environments, the ability to understand the capabilities of all these modern technologies are necessary technical skills. To support this growing demand of cloud skills, the institution partnered with Amazon Web Services (AWS), the industry leader in cloud computing solutions, to train high school students as early cloud adopters and to be well-prepared for the computing/IT workforce of tomorrow. This academic-industry partnership aims to raise cloud literacy in K-12 by offering a two-week cloud computing bootcamp for high school students selected from traditionally underrepresented groups, Hispanic and/or African Americans. The bootcamp used a combination of team teaching, online sandbox repetition and experimentation, and project-based practice. The AWS materials provided by AWS Academy covered the details of the AWS infrastructure and were coupled with AWS Educate classroom sandboxes for practice. The two-week intensive practice and review certified 21 out of 31 high school students in the AWS Cloud Practitioner certification. This was the first time AWS Academy authorized high school students to take the certification exam and currently the largest cohort of high school students as AWS Cloud Practitioners. This paper presents the details of the pilot implementation of the summer bootcamp part of the cloud literacy initiative. This pilot includes curriculum, pedagogy, and software tools. Surveys were administered to the students to collect their demographic information, assessments of the pedagogical approaches and interest in cloud computing. Also, pre- and post-exam scores were reported to analyze student performance outcomes. These results are presented to show the potential of such an outreach program to build capacity and broaden participation in the computing field through emerging technology. 

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4. Learning in a Crisis: Online Skill Building Workshop Addresses Immediate Pandemic Needs and Offers Possibilities for Future Trainings

   https://doi.org/10.1785/0220200472  

   Brudzinski, Michael ; Hubenthal, Michael ; Fasola, Shannon ; Schnorr, Em ( July 2021 , Seismological Research Letters)

   Abstract The COVID-19 pandemic led to the suspension of many summer research opportunities for science, technology, engineering and mathematics students. In response, the Incorporated Research Institutions for Seismology Education and Outreach program, in collaboration with Miami University, offered a free online Seismology Skill Building Workshop to increase undergraduates’ knowledge, skills, self-efficacy, and interest in observational seismology and scientific computing. Registrations were received from 760 undergraduates representing 60 different countries. U.S. participants consisted of 59% women and 29% from populations traditionally underrepresented in the geosciences. The workshop design consisted of a tailored Linux virtual machine, regular webinars, a Slack workspace, tutorial-style active e-learning assignments, and an optional final project. Every other week for 12 weeks, a module with ∼6 assignments was released to build skills with Linux, Generic Mapping Tools, Seismic Analysis Code, webservices, seismic network processing, Python, ObsPy, and Jupyter notebooks. A final module focused on competitiveness for graduate school, summer internships, and professional jobs. Evaluation of the workshop relied on registration data, pre- and post-workshop surveys, and performance data from the learning management system. 440 participants completed at least one assignment, 224 completed at least 80% of the assignments, and 191 completed all 35 assignments, significantly higher than most comparable large-scale, open-access courses. Participants invested ∼6 hrs per week and averaged a score of 88% on assignments. We identified >60% normalized gain in scientific computing skills. There is evidence that the inclusive design of the workshop was able to attract and retain a diverse population. However, some additional investigation is needed to ensure that benefits were evenly experienced. Regardless of the degree of completion, participants perceived the workshop quite positively: on average 96% described it as high to very high quality, 83% satisfied to very satisfied with their experience, and 70% very likely to recommend to peers. We identify future directions for running a second iteration of the workshop, including strategies to continue broadening participation and improving retention. 

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5. Diversity and Inclusion in Mechatronics and Robotics Engineering Education

   Pannier, C. ; Berry, C. ; Morris, M. ; Zhao, X. ( June 2020 , ASEE annual conference exposition proceedings)

   It is well-known that women and minorities are underrepresented in STEM fields. This is true of mechatronics and robotics engineering (MRE), despite targeted K-12 activities, such as the FIRST Robotics Competition, that aim to increase diversity in engineering. This paper is a first step in assessing the current status of women and underrepresented minorities (URM) as well as investigating solutions to increase diversity and support inclusion of these groups specifically in MRE. The paper examines challenges and potential solutions identified in The 4th Future of Mechatronics and Robotics Education and in an online survey of the MRE college instructor community. Survey participants reported on courses, programs, clubs, and outreach events at the college level. The sample size is small, but the data provide initial findings to inform further study. Qualitative text analysis was used with the survey data. Five themes emerged, ordered from most frequent to least: the instructor’s perspective, social context of MRE, specific attributes of MRE, pre-college interventions, and in-college interventions. The most promising new ideas are in curriculum reform to incorporate social context into engineering education and in expanding STEM outreach by colleges to elementary and middle schools. Existing programs should also be strengthened, including robotics competitions, NSF Research Experiences for Undergraduates, STEM summer camps, bridge programs, and affinity programs. Other important aspects include actively engaging parents, and working to be more inclusive of first-generation Americans and first-generation college students. The paper concludes with initial suggestions to increase diversity and inclusion in MRE and areas for further study. 

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