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Robotics Mentorship as a Cross-Disciplinary Platform to Foster Engineering Soft Skills

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Conference

2023 ASEE Annual Conference & Exposition

Location

Baltimore , Maryland

Publication Date

June 25, 2023

Start Date

June 25, 2023

End Date

June 28, 2023

Conference Session

Community Engagement Division 4 - Cultivating Engineering Excellence through Mentorship and Humanitarian Engineering

Tagged Division

Community Engagement Division (COMMENG)

Page Count

11

DOI

10.18260/1-2--44152

Permanent URL

https://peer.asee.org/44152

Download Count

257

Paper Authors

biography

Ping-Chuan Wang State University of New York, New Paltz

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Ping-Chuan Wang is Assistant Professor in the Division of Engineering Programs at the State University of New York (SUNY) at New Paltz. He received his doctorate degree in Materials Science and Engineering from Columbia University in 1997. After a career in the semiconductor industry, he joined SUNY New Paltz in 2018 with research interests in microelectronics reliability, additive manufacturing, and interdisciplinary engineering education.

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Wenyen Huang State University of New York, New Paltz

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Wenyen (Jason) Huang, huangj18@newpaltz.edu, is Assistant Professor of Mathematics Education in the Department of Teaching and Learning at SUNY-New Paltz. Jason has a particular interest in utilizing technology for enhancing student’s understanding and improving teacher’s instruction in the STEM classroom. He is a former high school mathematics teacher.

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Graham Werner State University of New York, New Paltz

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Graham Werner is an Assistant Lecturer, who teaches engineering labs and lectures for the Division of Engineering Programs at SUNY New Paltz. He primarily develops curriculum for mechanical engineering laboratory courses and is interested in promoting STEM education in local K-12 communities.

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biography

Darren Wang Stony Brook University

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Darren Wang is currently a freshman at Stony Brook University pursuing a B.E. degree in biomedical engineering. He was involved in the Robotics Team of John Jay High School in Wappingers Central School District, NY, as a founding member and the club president for three years (2019 - 2022) where he designed and coordinated the Dream-Think-Create (DTC) program in collaboration with faculty and students at SUNY New Paltz. The DTC program works to increase interest and prowess in engineering among highschoolers. His recent research interests include developmental biology, biological manufacturing, and additive manufacturing.

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biography

James M. Amodio John Jay High School, Wappingers Central School District

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James Amodio teaches Physics & Engineering at John Jay Sr. HS in East Fishkill, NY. He received both his B.A. in Physics and his M.A. in Secondary Education from Adelphi University. He has taught in various schools across Southern NY in the past 25 years. In 2015, James was awarded CTE Teacher of the Year by Yonkers Public Schools. In 2023, he was inducted in the NYS Master Teacher Program. Outside of the classroom, James is passionate about sharing STEM in informal educational settings; he has coached 22 different FIRST robotics teams with students ranging from grades K-12 and brought teams to both Regional and World Championships. In the summer, James teaches electronics and coding classes at Discover Camp in Hawthorne, NY. He also volunteers as the Dutchess District STEM Coordinator for the Greater Hudson Valley Council of the Boy Scouts of America, running several STEM workshops a year.

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Abstract

An interdisciplinary robotics mentorship program was initiated in the Fall of 2019 as a two-semester pilot project to study soft skill development in undergraduate engineering students. The primary objective of this program is to design and implement an effective learning model to foster engineering students’ development of soft skills through collaboration with students in education major. The mentorship model comprises three actively engaged groups: undergraduate engineering students, adolescence mathematics teacher candidates, and high school members of an after-school robotics club. Through alternating series of internal planning sessions at the university and engineering workshops at the high school, the volunteering engineering students co-designed STEM-topic workshops with the education students, implemented the activity in the robotics club, and received feedback from education students for improvement. These workshops include topics like CAD design, 3D printing, microcontrollers, coding, and engineering notebooks to expand high school students’ STEM interests, as well as for robot building and competition. Results of the pilot study demonstrated that cross-disciplinary collaboration and interaction effectively enhance engineering soft skill development, particularly in Presentation, Teamwork, and Leadership. For example, the three-way approach provides additional teamwork aspects with shared expertise from an educational perspective. Based on the challenge and findings from the pilot study, the program structure has evolved each year for the ensuing two academic years to strategically reinforce the interaction among the three groups, particularly across the college engineering and education disciplines, and help enhance development of the evaluated soft skills. For example, after the one-year suspension of the program due to the COVID-19 pandemic, the second phase of the mentorship program was redesigned to accommodate the team project approach for the high school robotics club. The approach provided a structure where individual teams of three high school students were encouraged to design, create, and revise their own STEM projects with a set budget. Through the iterative design approach, the engineering and education students had more opportunities to interact, communicate and engage with the high school students by providing guidance and advice, in ways that empowered the high school students to take initiative and ownership of their learning beyond the robotic competition. In this paper, we will describe and explain the design consideration and approach to our program revision beyond the pilot study, and then identify the issues and success unique to this cross-disciplinary robotics mentorship program in fostering engineering soft skill development as it entered the third phase in Fall 2022. We will report on our analysis results of survey and interview data from 22 participants of college engineering or education students. Discussions will be focused on the soft skill development outcomes assessed through surveys and interviews from the participating students over the first two years, implementation of the team design projects and its effectiveness, and lessons learned and opportunities for broader impact in the future.

Wang, P., & Huang, W., & Werner, G., & Wang, D., & Amodio, J. M. (2023, June), Robotics Mentorship as a Cross-Disciplinary Platform to Foster Engineering Soft Skills Paper presented at 2023 ASEE Annual Conference & Exposition, Baltimore , Maryland. 10.18260/1-2--44152

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