Graduate Curriculum in Mechatronics and Robotics: Development and Implementation Challenges for Engineering Technology

Avimanyu Sahoo; Chulho Yang; Young Bae Chang

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Conference: 2021 ASEE Virtual Annual Conference Content Access
Location: Virtual Conference
Publication Date: July 26, 2021
Start Date: July 26, 2021
End Date: July 19, 2022
Conference Session: Engineering Technology Pedagogy 2
Tagged Division: Engineering Technology
Tagged Topic: Diversity
Page Count: 13
DOI: 10.18260/1-2--37232
Permanent URL: https://peer.asee.org/37232
Download Count: 581

Paper Authors

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Avimanyu Sahoo Oklahoma State University

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Avimanyu Sahoo received his Ph.D. and Masters degree in Electrical Engineering from Missouri University of Science and Technology, Rolla, MO, and Indian Institute of Technology, Varanasi, India, in 2015 and 2011, respectively. He is currently working as an Assistant Professor at the Division of Engineering Technology, Oklahoma State University, Stillwater, OK, USA. His teaching interests include mechatronics, control systems, electrical engineering. His current research interests include event
sampled control, adaptive control, neural network control, networked control system, and optimal control.

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Chulho Yang Oklahoma State University

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Professor Yang received a Ph.D. degree in Mechanical Engineering from Purdue University at West Lafayette, IN, USA as well as M.S. and B.S. degrees from Hanyang University in Korea.
Before joining OSU in 2008, he acquired 11 years of industrial experience with ArvinMeritor technical center, IBM Korea, and KIA Motors R&D Center. Much of his work focused on structural design and optimization, vehicle NVH test, sensitivity analysis, structural health monitoring, human body protection, and design methodologies. He registered many patents in the USA, Europe, Japan, and Korea. He received an “Innovation and Achievement Award” from ArvinMeritor, Inc., a "Best Paper Award" from the International Symposium on Advanced Material and Mechanical Application, an "Outstanding Presenter Award" from the International Symposium on Green Manufacturing and Applications. He also served as a keynote speaker or a session chair for multiple international conferences.

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Young Bae Chang P.E. Oklahoma State University orcid.org/0000-0001-7110-1202

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Dr. Young Chang is a Professor and the Head of the Division of Engineering Technology. Since 2000 he has taught Mechanical Engineering Technology courses, particularly on hydraulic, electrohydraulic, and pneumatic fluid power. Prior to 2000, he worked as an adjunct faculty and a research staff of the Web Handling Research Center, supported by a consortium of American companies. He previously worked at Korea Atomic Energy Research Institute characterizing flow-induced vibration and thermo-fluids problems of nuclear power plant components, mainly related to the safety of pressurized-water reactors.

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Abstract

The U.S. Department of Labor projects an increase in the number of engineers in the USA from 1.68 million to 1.82 million by 2026. The fastest-growing demands are in Data Science and Machine Learning, and Mechatronics and Robotics. The term 'Mechatronics' is expanding its horizon due to the current digital disruptions in industrial automation. Starting with a concept of leveraging the synergy between mechanical and electrical engineering from a system theoretic prospect, mechatronics now encompasses several engineering disciplines, including intelligent control, wireless networking, the Internet of Things (IoT), cyber-physical systems, and autonomous vehicles. Mechatronics finds its application in almost every engineering field, such as cyber-based smart manufacturing, medical, agricultural and bio-systems, autonomous vehicles. Robotics is another engineering discipline, often connected with mechatronics, revolutionizing industrial automation and other applications. The fields of robotics and mechatronics are tightly integrated, and robotics can be considered one of mechatronics' application areas. With the rapid technological explosion, the demand for the interdisciplinary workforce has been increased significantly. This demand calls for developing a trained workforce and universities and colleges have started offering new curricula in mechatronics and robotics. In general, the focus of these programs depends on the faculty research area and local industrial demand. From the perspective of Engineering Technology, where hands-on learning is pervasive, the development of the Mechatronics and Robotics curriculum is of more importance to cope with the industry-ready workforce demand. However, there are several challenges involved in developing and implementing such a program, especially at the graduate level, due to students' expected diverse backgrounds. The XXXX Engineering Technology at XXXX University recently developed a Master of Engineering Technology (MSET) degree program with an option in Mechatronics and Robotics (MERO). The program will leverage the expertise of the Electrical Engineering Technology and Mechanical Engineering Technology faculty and will have multiple focus areas, such as control, artificial intelligence, additive manufacturing, autonomous vehicle, energy, and vibration. The paper will present the curriculum developmental process, industry feedback, and the challenges involved during the process from the perspective of engineering technology. It will also discuss the details of the MSET curriculum and focus areas. This paper will add value to the technology programs planning to develop a new curriculum in MERO in the future.

Citation
Format

Sahoo, A., & Yang, C., & Chang, Y. B. (2021, July), Graduate Curriculum in Mechatronics and Robotics: Development and Implementation Challenges for Engineering Technology Paper presented at 2021 ASEE Virtual Annual Conference Content Access, Virtual Conference. 10.18260/1-2--37232

TY - CPAPER
AB - The U.S. Department of Labor projects an increase in the number of engineers in the USA from 1.68 million to 1.82 million by 2026. The fastest-growing demands are in Data Science and Machine Learning, and Mechatronics and Robotics. The term &#39;Mechatronics&#39; is expanding its horizon due to the current digital disruptions in industrial automation. Starting with a concept of leveraging the synergy between mechanical and electrical engineering from a system theoretic prospect, mechatronics now encompasses several engineering disciplines, including intelligent control, wireless networking, the Internet of Things (IoT), cyber-physical systems, and autonomous vehicles. Mechatronics finds its application in almost every engineering field, such as cyber-based smart manufacturing, medical, agricultural and bio-systems, autonomous vehicles. Robotics is another engineering discipline, often connected with mechatronics, revolutionizing industrial automation and other applications. The fields of robotics and mechatronics are tightly integrated, and robotics can be considered one of mechatronics&#39; application areas. With the rapid technological explosion, the demand for the interdisciplinary workforce has been increased significantly. This demand calls for developing a trained workforce and universities and colleges have started offering new curricula in mechatronics and robotics. In general, the focus of these programs depends on the faculty research area and local industrial demand.
From the perspective of Engineering Technology, where hands-on learning is pervasive, the development of the Mechatronics and Robotics curriculum is of more importance to cope with the industry-ready workforce demand. However, there are several challenges involved in developing and implementing such a program, especially at the graduate level, due to students&#39; expected diverse backgrounds. The XXXX Engineering Technology at XXXX University recently developed a Master of Engineering Technology (MSET) degree program with an option in Mechatronics and Robotics (MERO). The program will leverage the expertise of the Electrical Engineering Technology and Mechanical Engineering Technology faculty and will have multiple focus areas, such as control, artificial intelligence, additive manufacturing, autonomous vehicle, energy, and vibration. The paper will present the curriculum developmental process, industry feedback, and the challenges involved during the process from the perspective of engineering technology. It will also discuss the details of the MSET curriculum and focus areas. This paper will add value to the technology programs planning to develop a new curriculum in MERO in the future.

AU - Avimanyu Sahoo
AU - Chulho Yang
AU - Young Bae Chang P.E.
CY - Virtual Conference
DA - 2021/07/26
PB - ASEE Conferences
TI - Graduate Curriculum in Mechatronics and Robotics: Development and Implementation Challenges for Engineering Technology
UR - https://peer.asee.org/37232
DO - 10.18260/1-2--37232
ER -