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1. Exploration of a Bridge Program to Increase Student Understanding of Emerging Technological Fields

   https://doi.org/10.5281/zenodo.13989056  

   Synder, Sam; Labrie, Josh; Schuh-Nuhfer, Natasha; Russell, Christopher (August 2024, Journal of advanced technological education)

   Bridge programs are common interventions colleges implement to improve student recruitment, retention, and performance. Key components are typically specific content instruction, tutoring, mentoring, and college orientation. This paper provides the results of a short-duration summer bridge program designed to increase student awareness of emerging technological fields in engineering technology (ET), specifically the semiconductor and data center industries. High school students in the summer bridge program were provided with information about NOVA’s ET programs, participated in hands-on activities around topics important to semiconductor and data center operations (DCO) technician careers, and met industry representatives through industry site tours. Student data includes participant changes in understanding of ET educational and career pathways, knowledge of OSHA and industrial safety, understanding of college success skills and strategies, and interest in ET careers. Results of the study demonstrated that students of all subgroups (e.g., gender, grade level, race, ethnicity) exhibited equivalent improvement in their understanding of ET education and career pathways while student outcomes in OSHA and college success skills varied by subgroup. Based on these results, the use of a short-duration bridge program is one mechanism for post-secondary institutions to increase awareness of emerging technologies and educational pathways to support careers in those technologies 

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2. Board 226: Building Data Center Career Pathways Through K-12 Industry Externships

   https://doi.org/10.18260/1-2--42661  

   Labrie, Josh; Russell, Christopher; Kaur, Antarjot (June 2023, ASEE Conferences)

   Data centers are large, centralized clusters of computing hardware. Enterprise and economic activities that rely on internet services (e.g., cloud-based computing, online commerce, video and audio streaming) require significant data center infrastructure to ensure continuity of services. To provide these services, data centers require significant capital investment, ongoing operational maintenance, and the engineering workforce capacity to support these. Nationally, increasing reliance on distributed computing and off-site data storage has caused a boom in data center construction in multiple key markets nationwide. Additionally, shifts towards telecommuting and spikes in internet demand due to the COVID-19 pandemic have spurred increased demand for fast and reliable access to remote computing infrastructure (Miller, 2020). Northern Virginia has the largest and fastest growing market for data center capacity in the US (JLARC, 2019). Data center capacity is forecasted to double in Virginia during the next 10 years, with most of that growth concentrated in regions of Loudoun County and Manassas (Miller, 2018). The jobs created as a result of these investments offer high salaries for entry level technicians, especially compared with other regional opportunities to 2-year degree holders (Patil, 2019; Schneider & Vivari, 2012). Despite this rapid growth, data center pathways remain underdeveloped in Northern Virginia. Student and teacher awareness of data centers is low, with the sector operating almost invisibly to the education system (Magnolia Consulting, 2022). This project attempts to improve regional awareness of data center careers through an industry externship targeted to high school counselors from Virginia districts with highly concentrated data center industries. During their externships, educators attended structured tours of Micron Technology and Stack Infrastructure, participated in networking sessions at NOVA campuses, and developed an action plan to bring awareness of data center careers to their institutions. Using pre- and post-surveys, focus groups, and content analysis of action plans, this paper investigates the extent to which participation in externship activities improves educator awareness and knowledge of the data center industry, knowledge of regional career pathways, and intentions to change professional practice. The results are generalized to provide recommendations for practitioners seeking to increase awareness of emerging technological fields within the K-12 education system. 

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3. Board 321: Integrating Design Thinking and Digital Fabrication into Engineering Technology Education through Interdisciplinary Professional Learning

   Russell, C. (June 2023, ASEE annual conference exposition proceedings)

   In Northern Virginia, engineering technology career pathways are underdeveloped. Rapid changes in industrial processes have led to an increased need for adaptable and flexible workers who can respond creatively to shifting production technologies (Agarwal et al., 2018). In particular, workers with expertise in design thinking, communication, and critical thinking skills are in high demand (Giffi et al., 2018). Despite high wages created by this demand, engineering technology careers are largely invisible to students and the belief that manufacturing is low-tech persists (Giffi et al., 2017; Magnolia Consulting, 2022). These conditions suggest that investment in teacher professional learning (PL) is warranted. The integration of digital fabrication (e.g., 3D printing) into classroom teaching is one promising avenue to increase student interest and awareness of engineering technology careers (Peppler et al., 2016). However, studies of classroom implementation of digital fabrication technologies also report that teachers struggle to move beyond “keychain syndrome” – the tendency to fall back to reproducing simple objects, such as a keychain (Blikstein, 2014; Eisenberg, 2013). Educator PL in digital fabrication has centered on machine operation, and not the pedagogy, cognitive strategies, and processes to situate the technology (Smith et al., 2015). This project investigates the effectiveness of a sustained and interdisciplinary design thinking PL fellowship (“Makers By Design”) in improving integration of fabrication and design thinking into teaching practice. Design thinking is a non-linear user-centered strategy used to approach the design of products, emphasizing collaborative project-based methods to solve real-life problems (Brown, 2008). In the classroom, design thinking can serve as a cognitive bridge between a design problem and digital fabrication technologies. Participating Makers By Design fellows (n=17) completed 1) a series of design thinking workshops, 2) practice teaching at digital fabrication summer camps, and 3) development and integration of a design thinking challenge. Fellows completed the above in interdisciplinary groups consisting of K-12 teachers, college faculty, and librarians. Using a mixed-methods approach, this paper evaluates the extent to which participating educators reported increased confidence in integrating design thinking and digital fabrication into their instruction, demonstrated content mastery during teaching practice, and successfully developed and deployed design challenges. Data sources include pre- and post-surveys, focus groups within teaching discipline, and observations of summer camp and classroom teaching. Project results are aligned with the existing literature on successful PL (e.g., Capps et al., 2012) and recommendations for future digital fabrication-centered PL are discussed. 

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4. The Synergy of Intertwining Grant Activities: Cyber Up! and GenCyber Girls

   West, Tobi (August 2022, ASEE Annual Conference proceedings)

   The ongoing workforce shortage of skilled and diverse cybersecurity professionals coupled with the continued upward trend of cybercrime has led to an increased number of funding opportunities from the federal government to support projects focused on technical skills development. Significant emphasis is placed on academic transfer pathways and education-to-career pathways for students from K-12 to community college and beyond. Utilizing funding from multiple sources, faculty have intertwined grant project activities to increase awareness of cybersecurity careers and academic pathways, emphasizing digital forensics and incident response. The two grant projects, Cyber Up! and GenCyber Girls, aimed to develop college-level curriculum and cybersecurity workshops for female high school students. Project activities were synthesized to create a summer camp for high school students based on the curriculum developed for the college programs in digital forensics and incident response. The synergy between the projects has shown an increase in female participation in the digital forensics course and helped build interest in cybersecurity careers among K-12 students. 

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5. Redesigning Learning Spaces and Credentials for 21st-Century Emerging Tech Careers

   Billionniere, E.; Rahman, F (April 2020, Proceedings of Society for Information Technology & Teacher Education International Conference)

   With the rise of “Do-It-Yourself" approach, a shift to new paradigms in accessing education has spread out and disrupt the strict linear higher education pathway. Internet and digital technologies changed the approach to learning and teaching. From digital learning to competency- based education, 21st century learners acquire knowledge, skills, and abilities in new ways to meet tomorrow’s workforce needs, in particular in the area of emerging technologies. Additionally, with the influx of nontraditional adult students, these educational innovations can best prepare learners for EmTech careers and provide them a more affordable, convenient, and practical-oriented education without sacrificing quality learning. This paper discusses educational pathways, both informal and formal, to gain knowledge and skills in EmTech as well as addresses the continuous reshaping of higher education to take into consideration various experiences of learning so learners can further their education with credit programs. 

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