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1. Designing Modular, Stackable Credentials for Academic and Career Success

   Turk, J.; Panda, S.; Ignatius, A.; Sun, Y.; Miller, Z. (January 2019, 2019 ATE Principal Investigators' Conference)

   null (Ed.)

   The session will share the University of North Georgia’s Applying Geospatial and Engineering Technology (AGET) project experiences and developments associated with modular and stackable credentials in land surveying and geospatial engineering technology. The project developed and implemented a new Land Surveying Certificate and Associate of Science pathway in Geospatial Engineering Technology containing several tracks with modular and stackable credentialing options for students. 

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2. Applying Geospatial and Engineering Technology (AGET)

   Turk, J.; Sun, Y.; Panda, S.; Ignatius, A.; Urbach, B. (January 2020, 2020 ATE Principal Investigators' Conference, A Virtual Event)

   null (Ed.)

   The AGET project's goal is to improve the education of undergraduate technicians at UNG. Curriculum development, workforce development, and dissemination objectives were accomplished. An associate degree and certificate program in geospatial engineering technology (GET) were developed. An executive advisory board was formed with the support of local industry and government to support graduating students' transition to the workforce. Practicum development and presentation to local schools advanced GET knowledge and recruitment. An external evaluation supported and guided the project's success. 

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3. Highlighting and examining the importance of authentic industry examples in a workforce development certificate program

   https://doi.org/10.18260/1-2--27896  

   Johnson, M.D. (January 2017, ASEE annual conference)

   The importance of authenticity has been examined in various aspects of education; this is especially true in the area of engineering education where most graduates will matriculate to industry. However, the importance of applied and authentic examples could be even more critical in workforce development programs. In these cases, students are often enrolled with a goal of using their acquired knowledge to advance their career or move into a new role. Purely theoretical or stylized examples would not be aligned with the educational goals of these students. As part of a National Science Foundation Advanced Technological Education grant, a certificate program in high value manufacturing (HVM) has been developed. The certificate program is a collaboration between a research intensive four-year institution and an urban community college. In this certificate program students will be taking courses in manufacturing processes, design, and other business-related subjects that are pertinent to the manufacture of low volume components that have high materials costs, stringent quality requirements, and critical project timelines. This unique content area requires example that comprise these pertinent aspects of HVM. This is particularly true of the five newly developed courses covering materials, project management, quality, logistics, and computer-aided design. While the analogous courses at a four-year degree granting institution would likely use stylized examples in these courses, this would not be preferable in an applied certificate program. This work discusses the acquisition and refinement of authentic and applied examples that are applicable to the HVM environment. Specifically, the use of industry contacts and the translation of examples into useable and appropriate examples are examined. These examples are detailed and compared to traditional stylized academic content. A methodology for examining student perceptions of these examples is also proposed. A discussion of the importance of authenticity in applied certificate programs is also presented. 

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4. Understanding the factors contributing to persistence among undergraduate engineering students in online courses

   Brunhaver, Samantha; Bekki, J.; Lee, E.; Kittur, J. (March 2019, International Conference on Learning Analytics & Knowledge)

   This poster will report on the research design and methodology planned for a recently funded National Science Foundation-sponsored project focused on advancing knowledge about the factors that influence the decisions of undergraduate engineering student to complete (rather than drop out of) online courses. Through the application of both social science and learner analytics-based research methods, the research will explore how students’ perceptions about the characteristics of their online undergraduate engineering courses and engagement with their course learning management system (LMS) influence their persistence. To support these studies, we draw on the undergraduate engineering student population at a large, public university in the southwestern United States that has been an early adopter of comprehensive online undergraduate engineering education. The findings from this work will be both important and timely, as the field of engineering education shows signs of embracing the online presence critical to increasing access and participation in engineering. 

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5. Understanding the factors contributing to persistence among undergraduate engineering students in online courses

   Brunhaver, S.; Bekki, J.; Lee, E.; Kittur, J. (March 2019, Companion Proceedings of the 9th International Conference on Learning Analytics & Knowledge)

   This poster will report on the research design and methodology planned for a recently funded National Science Foundation-sponsored project focused on advancing knowledge about the factors that influence the decisions of undergraduate engineering student to complete (rather than drop out of) online courses. Through the application of both social science and learner analytics-based research methods, the research will explore how students’ perceptions about the characteristics of their online undergraduate engineering courses and engagement with their course learning management system (LMS) influence their persistence. To support these studies, we draw on the undergraduate engineering student population at a large, public university in the southwestern United States that has been an early adopter of comprehensive online undergraduate engineering education. The findings from this work will be both important and timely, as the field of engineering education shows signs of embracing the online presence critical to increasing access and participation in engineering. 

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