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1. Assessing Educational Pathways for Manufacturing in Rural Communities: An Investigation of New and Existing Programs in Northwest Florida

   Mardis, Marcia A.; Jones, Faye R. (June 2019, ASEE annual conference & exposition)

   To build the nation's skilled technical workforce, the demand for entry and middle-skill professionals in technical fields in Science, Technology, Engineering, and Mathematics (STEM) is increasing. The alignment between educational programming and job requirements for STEM-oriented technicians is essential for establishing career pathways that produce high-quality middle skills professionals for technology-rich fields. Building on prior research on rural Florida’s information technologies career pathways, in this National Science Foundation (NSF) Advanced Technician Education (ATE) targeted research project, FSU researchers are investigating alignment among educational opportunities, employer needs, student readiness and new employee experiences in Advanced Manufacturing (AM) and test the usefulness of tools and processes developed to assess such alignment, focusing on the opportunities and challenges in Florida’s rural areas. Researchers constructed and are iteratively refining an AM Body of Knowledge (BOK) for analysis and community engagement. The quantitative and qualitative mixed methods research design combines content analysis and text mining using the BOK with surveys, and interviews/focus groups. The research team is applying text mining approaches to identify the match between syllabi learning outcomes, industry certification requirements, state curriculum frameworks, and job postings. In interviews and focus groups, researchers are qualitatively assessing the employers’ competency expectations and new professionals’ job experiences. These analyses will build capacity among rural stakeholders to strengthen and expand their technical workforce. 

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2. Footprint for Engineering Technology Technician Education

   https://doi.org/10.18260/1-2--56584  

   Barger, Marilyn; Gilbert, Richard; Martin, Sidney; Eaglin, Ron (June 2025, ASEE Conferences)

   The world of two-year degree in Engineering Technology (ET) technician preparation is conveniently recognized by its community of practices. The members of that extended community are labeled by their ET program participation elements. The nationally significant members include the American Society for Engineering Education (ASEE), the National Science Foundation Advanced Technical Education Program (NSF ATE), and the broad ET-supportive industry sectors. An appreciation of current ET technician preparation in the United States requires an examination of these three contributors to the ET national community of practice. This paper presents the characteristics of each of these community of practice members. Technician preparation examples from each will be presented and examined for similarities and differences. Suggestions for tightening the expectations for these three preparation sectors will be presented. The successful integration of ET technician preparation within 22 colleges in the Florida State College System will be presented. An overview of the seamless transition, as regulated by the Florida Department of Education, from high school Career and Technical education through two-year college, four-year ET programs, followed by paths to the ET Professional Engineer or graduate degree level, will also be presented. Specific industry involvement and responsibilities at the State ET program Advisory Board (SETIAB) level will be included in this paper. 

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3. What is Advanced Manufacturing? Exploring the Topography of Definitions

   Pahuja, Divya; Mardis, Marcia A.; Jones, Faye R. (June 2019, ASEE annual conference & exposition)

   Global economists have cited advanced manufacturing (AM) as one of the fastest growing, dynamic, and economically instrumental industry sectors in the world. In response, many community colleges and undergraduate-serving institutions have established technician education programs to prepare future workers to support AM vitality and innovation. However, in the rush to couple market and training demands, stakeholders have not agreed upon a definition of the field. Without a central notion of AM, the competencies and professional identities of AM workers are likewise unclear. In an effort to address this consensus gap, we undertook an extensive systematic review of AM definitions to chart of sector’s topography, in an effort to understand AM’s breadth and depth. The goals of this study were to: 1) define AM as perceived by policymakers and 2) identify important concepts and contextual factors that comprise and shape our understanding of AM. In this study, we used systematic policy and literature review approach to analyze canonical and research-based publications pertaining to AM’s origins, components, and operational definitions. We classified, compared, and synthesized definitions of AM depending by stakeholder, for example, professional organizations, government agencies, or educational program accreditors. Among our notable findings is that in the eyes of policymakers, manufacturers are advanced not because they make certain products, but because they have adopted sophisticated business models and production techniques. Advanced manufacturers typically use a combination of three factors to remain competitive: “advanced knowledge,” “advanced processes,” and “advanced business models.” This study is both timely and important because in a dynamic field such as AM, educators and industry leaders must work together to meet workforce needs. Clear understanding of AM can inform competency models, bodies of knowledge, and empirical research that documents school-to-career pathways. Both our findings and our methods may shed light on the nature of related technical fields and offer industry and education strategies to ensure their alignment. 

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4. Building Interest in Technology Careers through a Five-Week Saturday Program

   https://doi.org/10.18260/1-2--42663  

   Wosczyna-Birch, Karen (June 2023, ASEE Annual Conference & Exposition)

   The goal of this program, funded by the National Science Foundation Advanced Technological Education (NSF ATE) program, is to provide additional professional and technical skills to cohorts of high school students through a five-week Saturday Program. The curriculum is continuously reviewed and modified to address current skills needed by the technician workforce. While this program was originally proposed and planned as in-person, the leadership team decided to shift to a virtual environment as the pandemic caused the closure of community college campuses where the program was to be held. Program modalities and curriculum were modified to shift to an online experience. In Fall 2022, the program was able to return to an in-person format. The program’s leadership team disseminates best practices through presentations, social media, publications, and workshops at national conferences. The four-day Summer Teachers’ Workshop brings high school and community college educators from throughout the United States to experience the same program that is used for the high school students. The Program’s outreach efforts and the national dissemination of best practices for engaging underrepresented populations in technology careers has a national impact that will potentially increase the diversity of the technician workforce. The program has inspired participants to have confidence in their own abilities. Principals from participating high schools have commented that students who attended the Program have demonstrated an improvement in their academics and behavior due to the knowledge of professional and technical skills that they have gleaned from the program. The program has provided inner-city students from four high schools with out-of-school, hands-on educational programs focusing on professional skills, technical writing and engineering technology competencies. Participant demographics will be discussed in this paper as diversity is a key objective of the program. The program utilizes industry-driven, project-based learning (PBL) and lessons in career and college readiness to prepare students for the workforce. Each student session consists of five consecutive Saturdays and is taught by a team of high school teachers, community college faculty, and instructors with expertise in professional skills, teambuilding, leadership, technical writing, coding, and STEM disciplines. 

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5. Facilitating Advanced Manufacturing Technicians' Readiness in the Rural Economy: A Competency-based Deductive Approach

   Jones, Faye R.; Mardis, Marcia A.; Prajapati, Priyanka; Kowligi, Pallavi R. (July 2021, 2021 ASEE Virtual Annual Conference)

   null (Ed.)

   While rural manufacturing job availability is growing throughout the country, rural communities often lack skilled workers. Thus, it is imperative for employers to validate needed new professional competencies by understanding which skills can be taught on-the-job as well as the knowledge and abilities best gained through classroom learning and experiential learning opportunities. This enhanced understanding not only benefits employers’ hiring practices, but also it can help Career and Technical Education (CTE) programs improve curricula and expand learning opportunities to best meet students’ and employers’ needs. In this study, we triangulated industry competency model content with rural employer perspectives on new advanced manufacturing (AM) professionals’ desired competencies (i.e., the level of skill sophistication in a particular AM work area). To extract competencies for entry-level AM rural jobs, we used a deductive approach with multiple methods. First, we used Natural Language Processing (NLP) to extract, analyze, and compare the U.S. Department of Labor’s AM 2010 and 2020 Competency Models because they reflect the levels and topics AM industry professionals nationally reported as technician needs. Then, we interviewed 10 rural AM employers in North Florida to capture their perceptions of the most important competencies for new middle-skill technicians. Interview transcripts were also processed using NLP to extract competency levels and topics; we compared this output to the AM Competency Model analysis results. We deduced that the most critical competencies identified by rural AM employers required direct classroom instruction, but there was a subset of skills obtainable through on-the-job training or other experiential learning. This study, with the goal of addressing employee shortages and increasing the number of technicians ready for the workforce, has implications for rural community colleges’ AM programs curricula and the role of experiential learning. 

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