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1. Education in a Remote World: Focus on Workforce Readiness

   Delahanty, C. ; Genis, V. ; Herring, S. ; & Timby, T.A ( July 2021 , 2021 ASEE Virtual Annual Conference Content Access)

   Bucks County Community College (Bucks) in collaboration with Drexel University (Drexel) is committed to increasing the number of workforce ready engineers and engineering technicians and to creating a blueprint for 2+2 engineering education programs nationally. Recently, educational reform took an unexpected turn to remote teaching due to the world-wide COVID-19 pandemic. Within our NSF ATE grant to enhance our present engineering technology curriculum we modified and enhanced instructional and student engagement methods to assure workforce readiness of our students in a remote world. Curriculum enhancements within the engineering technology (ET) occupational major at Bucks and the B.S. in ET degree program at Drexel, modifications to delivery of workforce development certification programs through the Bucks Center for Workforce Development (CWD), and college-wide student engagement strategies were implemented to assure quality education and student engagement. Modifications to credit courses included asynchronous online courses, synchronous remote courses, and hybrid courses, which combined remote and on campus laboratory instruction. Our CWD implemented hybrid instruction that included necessary resources for students such as tool kits and borrowed laptop computers. In addition, a college wide program called Bucks+ was implemented through the Bucks Business and Innovation Department to increase enrollment, retention, and workforce readiness of students. The Bucks+ program focuses on student engagement through competition within curriculum, and extracurricular endeavors that prepare students for industry. We will share our successes and challenges within our call to action to engage students in a remote world and to enhance their educational experience through innovative instructional techniques. 

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2. Enhancing Workforce Readiness of Engineering Technicians

   https://doi.org/10.18260/1-2-34579  

   Delahanty, C. M. ; & Genis, V. ; & Herring, S. ; & Timby, T. A. ( June 2020 , 2020 ASEE Virtual Annual Conference Content Access)

   null (Ed.)

   Our community college will utilize funds from an NSF ATE grant to develop and integrate and innovative teaching model designed to prepare future technicians for industry by incorporating soft skills training, career exploration, and entrepreneurship. This collaborative model will formally connect our Center for Workforce Development (CWD) sector with our for-credit engineering technology program, our Business and Innovation Department and with our educational partners. This innovative project will enable our college to strengthen our technician education programs, formalize connections with CWD and our Business and Innovation Department, and prepare students for industry jobs through shadowing opportunities, employment, entrepreneurship, internships, and real-world, collaborative outreach. Our community college will collaborate with our Industry Advisory Board (IAB), CWD, and educational partners to (a) integrate an innovative teaching model for technician education that includes a formalized shadowing and internship program and connects students to opportunities in business and entrepreneurship; (b) require students to take a manufacturing laboratory course to introduce hands-on industry-related experiences; (c) include certifications that award digital badges, military training, and industry experience in our engineering technology program. It is our intention that this model for an enhanced educational experience designed to increase workforce readiness of students will become a blueprint for other programs and institutions. 

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3. Program evaluation of a professional development program for high school counselors on the engineering design process

   Ross, L. ; Dalal, M. ; Carberry, A. ( July 2021 , 2021 ASEE Annual Conference and Exposition)

   null (Ed.)

   High school counselors play a pivotal role in students’ educational pathways to STEM careers. Guidance provided by these school officials can have a measurable influence on student education and career choices. . School counselors play a critical role in student selection of elective courses, achievement, and fostering an environment through outreach activities. Each of these factors can influence students’ career interests, college choice, and major selection. This is one reason for why it is important to begin planning and having conversations around pursuing an engineering degree in high school to combat the lack of diversity in engineering rooted within the primary and secondary education systems. Recognizing school counselors as an untapped resource and equipping them with the knowledge and resources they need to inform students about engineering will allow them to increase students' motivations and capacities to pursue careers in engineering, especially for historically underrepresented minorities. Such capacity building of school counselors will inherently improve the diversity of our nation's engineering workforce. This research study details the development and evaluation of a professional development (PD) program for high school guidance counselors. The PD was situated within the context of a national high school engineering initiative aimed at demystifying the engineering experience through inclusive, secondary-level engineering curricula. The counselor PD was conducted virtually over the summer of 2020. In total, 15 counselors completed the six-week PD -. Counselors participated in a series of engineering design activities to learn more about the engineering process. They also attended information sessions about engineering stereotypes, stereotype threats, implicit biases, and different disciplines within engineering to better inform their students of future career options. This paper details the development and program structure of the counselor PD. Pre- and post-focus groups were used to gain insight into counselors’ perceptions of engineering. Post-surveys were also collected to determine what counselors thought about the PD. We will provide detail regarding shifts in perceptions of engineering and overall evaluation of the PD. We conclude with a discussion of key takeaways and lessons learned. 

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4. Inclusive Innovation: Creating a Conference To Promote Diversity in Science, Technology, Engineering, and Math

   https://doi.org/10.21300/21.2.2020.123  

   Rahhal, Tojan B. ; Devlin, Steven L. ; Loboa, Elizabeth G. ( March 2020 , Technology & Innovation)

   The College of Engineering at the University of Missouri, Columbia (MU Engineering) develops engineering leaders who positively influence society and bring innovation to the global workforce. Recruiting top students from around the world to fuel an atmosphere of excellence and cutting-edge growth, MU Engineering prepares out-of-the-box thinkers, innovators, and entrepreneurs who stand ready to lead today and adapt to tomorrow. To engage all of our students with industry in an inclusive space, the MU Engineering Office of Diversity and Outreach Initiatives established the Diverse Engineering Professionals Conference in 2017 in partnership with a student committee. The committee included representatives from various organizations, including the National Society of Black Engineers, Society of Hispanic Professional Engineers, Engineering Student Council, Society of Women Engineers, and Out in STEM. Industrial sponsorships were secured with assistance from the MU Engineering Leadership, Engagement and Career Development Academy. The daylong conference recognizes diversity organizations and diverse students and their achievements while promoting our core college values of integrity, excellence, and collaboration. The conference includes professional development and diversity education workshops, research presentations, keynote speakers, and a closing ceremony. In its first year, the conference featured nine companies and attracted about 75 attendees. In year two, the conference nearly doubled its impact with 12 companies and 150 attendees, including students from all majors, years, and demographics. The conference was well received across both years and continues to grow as an annual effort in the college. Feedback from company representatives and students re-emphasized the need for an intimate company-student environment like that found at the Diverse Engineering Professionals Conference. 

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5. NSF INCLUDES Conference: Advancing the Collective Impact of Retention and Continuation Strategies for Hispanics and Other Underrepresented Minorities in STEM Fields: Conference Proceedings

   Zatz, Marjorie S. ; Gates, Ann Q. ; Santiago, Deborah ( July 2017 , NSF INCLUDES Conference: Advancing the Collective Impact of Retention and Continuation Strategies for Hispanics and Other Underrepresented Minorities in STEM Fields:)

   The 2017 NSF INCLUDES “Conference to Advance the Collective Impact of Retention and Continuation Strategies for Hispanics and Other Underrepresented Minorities in STEM Fields” was held at the Kellogg Conference Center on the Gallaudet University campus in Washington, D.C., on March 6-8th, 2017. The conference brought together 74 researchers, higher education administrators, industry representatives, members of professional societies, and other community members from regions across the United States. Participants shared their experiences and expertise in broadening participation in STEM fields and in identifying strategies to improve outcomes for Hispanics, women, and other underrepresented groups in STEM fields. Panels focused on lessons learned about collective impact, the K-12 pipeline to college and the importance of community, Latino student success in two-year institutions, increasing Latino retention in undergraduate STEM programs, recruitment of highly competitive Latinos and other underrepresented minorities into graduate schools and strategies for successful completion of graduate studies, and industry partnerships to identify a diverse workforce. Panel and keynote presentations focused on evidence-based knowledge, leveraging findings from disciplinary and interdisciplinary fields and from differing types of institutions and educational levels to determine whether strategies identified can yield large-scale progress towards INCLUDES goals. In addition, small breakout sessions offered opportunities for attendees to share their ideas on (1) lessons learned from collective impact projects; (2) obstacles confronting students at various points and in different sectors of the education, career, and industry STEM pathways; and (3) best practices for overcoming barriers and ensuring that the strategies identified would be successful in different contexts. 

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