Flipping a Computer-Integrated Manufacturing Course
- Conference
- Location
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California State University, Los Angeles , California
- Publication Date
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April 4, 2019
- Start Date
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April 4, 2019
- End Date
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April 6, 2019
- Conference Session
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PSW Section Meeting Papers - Disregard start and end time - for online paper access only
- Tagged Topic
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Pacific Southwest Section Meeting Paper Submissions
- Page Count
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9
- DOI
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10.18260/1-2--31827
- Permanent URL
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https://strategy.asee.org/31827
- Download Count
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330
Paper Authors
Nicole Wagner California State Polytechnic University, Pomona
Dr. Nicole Wagner is an Assistant Professor in the Department of Industrial and Manufacturing Engineering at the California State Polytechnic University, Pomona (Cal Poly Pomona). She received her Bachelor of Science degree in chemistry from SUNY at Stony Brook. After this, she completed her master's and Ph.D. in mechanical engineering at the University of Minnesota. At Cal Poly Pomona, she teaches courses in manufacturing processes and automation. Her research interests include materials processing using plasma, materials characterization, 3D printing, and student assessment.
Abstract
This study evaluates the use of different active learning strategies for a computer-integrated manufacturing course. The laboratory used for this course has experienced recent renovation, including installation of state-of-the-art automation equipment. With this updated equipment, newly designed coursework has been created to enhance active learning, improve student engagement, and enrich student learning. Three automation topics were included in this study: (1) programmable logic controllers (PLC), (2) computer numerical control (CNC), and (3) robotics. These topics were selected as they are similar in how students understand the logic behind the techniques. Different instructional approaches were used for each of the three methods. For the PLC work, students were required to watch videos and take a quiz prior to starting the laboratory session. For the CNC work, students were evaluated for enhanced learning through supplemental instruction. For the robotics laboratory work, the effectiveness of increased student-instructor interaction was evaluated. Student surveys were used to assess both teaching effectiveness and enhancements in student learning. Based on student survey feedback, it was found that the active learning strategies assisted students in learning the course materials more effectively. Students who were more prepared prior to the laboratory session had a more effective learning experience during the experimental work. In addition, students more effectively learned a subject through supplemental instruction and increased student-instructor interactions.
Wagner, N. (2019, April), Flipping a Computer-Integrated Manufacturing Course Paper presented at 2019 Pacific Southwest Section Meeting, California State University, Los Angeles , California. 10.18260/1-2--31827
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