Use of a Vertically Integrated Project Team to Develop Hands-On Learning Modules

Aldo A. Ferri; Bonnie H. Ferri; Robert Lineberg; Kevin Peter Ferri; Zachary Crawford; Justin Tamayo

Download Paper | Permalink

Conference: 2017 ASEE Annual Conference & Exposition
Location: Columbus, Ohio
Publication Date: June 24, 2017
Start Date: June 24, 2017
End Date: June 28, 2017
Conference Session: Division Experimentation and Lab-Oriented Studies - Pedagogy of Lab Courses
Tagged Division: Division Experimentation & Lab-Oriented Studies
Page Count: 17
DOI: 10.18260/1-2--29063
Permanent URL: https://peer.asee.org/29063
Download Count: 686

Request a correction

Paper Authors

biography

Aldo A. Ferri Georgia Institute of Technology

visit author page

Al Ferri received his BS degree in Mechanical Engineering from Lehigh University in 1981 and his PhD degree in Mechanical and Aerospace Engineering from Princeton University in 1985. Since 1985, he has been a faculty member in the School of Mechanical Engineering at Georgia Tech, where he now serves as the Associate Chair for Undergraduate Studies. His research areas are in the fields of dynamics, controls, vibrations, and acoustics. He is also active in course and curriculum development. He is a Fellow of the ASME.

visit author page

biography

Bonnie H. Ferri Georgia Institute of Technology

visit author page

Dr. Bonnie Ferri is a Professor and the Associate Chair for Undergraduate Affairs in the School of Electrical and Computer Engineering at Georgia Tech. She performs research in the areas of active learning, embedded controls and computing, and hands-on education. She received the IEEE Undergraduate Education Award and the Regents Award for the Scholarship of Teaching and Learning. She received her BS in EE from Notre Dame, her MS in ME/AE from Princeton, and her PhD in EE from Georgia Tech.

visit author page

biography

Robert Lineberg Georgia Institute of Technology

visit author page

Robert Lineberg received his BS degree in Mechanical Engineering from Georgia Tech in 2016. Since graduating, he works as a mechanical engineer in the area of space surveillance, expanding from his previous work experience in fabrication and design. While at Georgia Tech he participated in the VIP team on Hands-On Learning for 4 semesters.

visit author page

biography

Kevin Peter Ferri Georgia Institute of Technoloy

visit author page

Kevin Ferri is a student at Georgia Tech, pursuing a BS degree in Electrical Engineering. He expects to graduate in May of 2018. At Georgia Tech, he has been involved as a lab technician and a teaching assistant for a prototying class. He participated in the VIP team on Hands-On Learning for 4 semesters.

visit author page

biography

Zachary Crawford Georgia Institute of Technology orcid.org/0000-0001-9575-4427

visit author page

Zachary Crawford is pursuing his bachelors in mechanical engineering and electrical engineering. He is currently enrolled at Georgia Tech and expects to graduate May 2018. He participated in the VIP team on Hands-On Learning for 5 semesters. His fields of interests include embedded systems and electromechanical systems. He is a member of the mechanical engineering honor society, Pi Tau Sigma.

visit author page

biography

Justin Tamayo Georgia Institute of Technology

visit author page

Justin Tamayo is a student at Georgia Tech, pursuing a BS degree in Computer Engineering. He will graduate in May of 2017, and he will continue his studies at Georgia Tech with a MS degree in Electrical and Computer Engineering. At Georgia Tech, he has been heavily involved in ECE Ambassadors, and he received the ECE Faculty Award for his service to his school’s community. He participated in the VIP team on Hands-On Learning for 3 semesters.

visit author page

Download Paper | Permalink

Abstract

Hands On Learning (HOL) is an excellent way to engage and motivate students and to enhance learning of difficult concepts [Astatke, et al., 2013; Ferri, et al., 2013; Ferri, et al., 2016]. In engineering education, hands-on learning has traditionally involved instructional lads or studio classes, which are focused on these types of activities. Recently, however, people have started to advocate for the distributed use of mobile, hands-on learning experiments that can be done by students in non-traditional settings. For example, students can now do sophisticated experiments with student-owned equipment and can perform the experiments on their own, or in traditional classroom settings. The combination of miniaturization of electronics together with student ownership of measurement equipment and/or smartphones means that there are now many more possibilities for hands-on learning than ever before. The biggest problem, however, is to know what experiences are effective, and how best to execute them. For the past two years, the authors have co-advised a Vertically-Integrated-Program on Hands-On Learning (VIP-HOL). VIP was developed by Coyle [Coyle, et al, 2014], and grew out of the EPICS program, for which Edward J. Coyle, Leah H. Jamieson, and William C. Oakes received the 2005 Gordon Prize from the NAE. The VIP program consists of teams of undergraduate students together with graduate students and faculty advisors who work on projects on a single theme. The unique aspect of VIP is that students remain in the program for several semesters, which allows them to transition from “learners to leaders” as they gain experience. At the authors’ institution, there are currently 41 VIP teams. In Spring 2015, the authors launched their VIP team on HOL. The premise of the team is to make students active partners in the educational process. In particular, the students are able to suggest projects that would facilitate the learning in courses and subject areas that they have encountered. Hence, a topic that they struggled with can be suggested as the focus of a design project on which a subteam of a few students can work. The projects on which the VIP team has worked include hands-on experimental platforms that are used in lecture-based classrooms as well as self-paced tutorials that students can work on in a maker space. As an example of the latter, the students developed an autonomous RC car and have demonstrated it at a number of workshops that they ran to introduce students to microcontrollers and embedded systems. They also suggest portable hands-on learning modules, followed by efforts to prototype, test, and implement the module into engineering classes. The full paper will describe the activities of the HOL group. Several projects that they have worked on will be described. Assessment data will be presented for the hands-on learning modules that they have developed to date.

References: E.J. Coyle, J.V. Krogmeier, R.T. Abler, A. Johnson, S. Marshall and B.E. Gilchrist, “The Vertically-Integrated Projects (VIP) Program – Leveraging Faculty Research Interests to Transform Undergraduate STEM Education,” Proceedings of the Transforming Institutions: 21st Century Undergraduate STEM Education Conference, Indianapolis IN, Oct. 23-24, 2014 Ferri, B.H., Ferri, A.A., Majerich, D.M., and Madden, A.G., 2016, “Effects of In-Class Hands-On Laboratories in a Large Enrollment, Multiple Section Blended Linear Circuits Course,” to appear, Advances in Engineering Education. Ferri, B.H., Ferri, A.A., and Connor, K.A., “Mobile Experiment for Signals and Systems Courses: Analysis of a Guitar String,” ASEE Conference, Atlanta, Georgia, June 23-26, 2013. Astatke, Y., Chouikha, M.F., Connor, K.A. , Ferri, A.A., Ferri, B.H., Meehan, K., Newman, D.L., Deyoe, M.M., and Walter, D.J., “ Models of Adoption and Best Practices for Mobile Hands-On Learning in Electrical Engineering,” ASEE/IEEE Frontiers in Education Conference, Oklahoma City, OK, Oct 23-26, 2013.

Citation
Format

Ferri, A. A., & Ferri, B. H., & Lineberg, R., & Ferri, K. P., & Crawford, Z., & Tamayo, J. (2017, June), Use of a Vertically Integrated Project Team to Develop Hands-On Learning Modules Paper presented at 2017 ASEE Annual Conference & Exposition, Columbus, Ohio. 10.18260/1-2--29063

TY - CPAPER
AB - Hands On Learning (HOL) is an excellent way to engage and motivate students and to enhance learning of difficult concepts [Astatke, et al., 2013; Ferri, et al., 2013; Ferri, et al., 2016]. In engineering education, hands-on learning has traditionally involved instructional lads or studio classes, which are focused on these types of activities. Recently, however, people have started to advocate for the distributed use of mobile, hands-on learning experiments that can be done by students in non-traditional settings. For example, students can now do sophisticated experiments with student-owned equipment and can perform the experiments on their own, or in traditional classroom settings. The combination of miniaturization of electronics together with student ownership of measurement equipment and/or smartphones means that there are now many more possibilities for hands-on learning than ever before. The biggest problem, however, is to know what experiences are effective, and how best to execute them.
For the past two years, the authors have co-advised a Vertically-Integrated-Program on Hands-On Learning (VIP-HOL). VIP was developed by Coyle [Coyle, et al, 2014], and grew out of the EPICS program, for which Edward J. Coyle, Leah H. Jamieson, and William C. Oakes received the 2005 Gordon Prize from the NAE. The VIP program consists of teams of undergraduate students together with graduate students and faculty advisors who work on projects on a single theme. The unique aspect of VIP is that students remain in the program for several semesters, which allows them to transition from “learners to leaders” as they gain experience. At the authors’ institution, there are currently 41 VIP teams.
In Spring 2015, the authors launched their VIP team on HOL. The premise of the team is to make students active partners in the educational process. In particular, the students are able to suggest projects that would facilitate the learning in courses and subject areas that they have encountered. Hence, a topic that they struggled with can be suggested as the focus of a design project on which a subteam of a few students can work. The projects on which the VIP team has worked include hands-on experimental platforms that are used in lecture-based classrooms as well as self-paced tutorials that students can work on in a maker space. As an example of the latter, the students developed an autonomous RC car and have demonstrated it at a number of workshops that they ran to introduce students to microcontrollers and embedded systems. They also suggest portable hands-on learning modules, followed by efforts to prototype, test, and implement the module into engineering classes.
The full paper will describe the activities of the HOL group. Several projects that they have worked on will be described. Assessment data will be presented for the hands-on learning modules that they have developed to date.

References:
E.J. Coyle, J.V. Krogmeier, R.T. Abler, A. Johnson, S. Marshall and B.E. Gilchrist, “The Vertically-Integrated Projects (VIP) Program – Leveraging Faculty Research Interests to Transform Undergraduate STEM Education,” Proceedings of the Transforming Institutions: 21st Century Undergraduate STEM Education Conference, Indianapolis IN, Oct. 23-24, 2014
Ferri, B.H., Ferri, A.A., Majerich, D.M., and Madden, A.G., 2016, “Effects of In-Class Hands-On Laboratories in a Large Enrollment, Multiple Section Blended Linear Circuits Course,” to appear, Advances in Engineering Education.
Ferri, B.H., Ferri, A.A., and Connor, K.A., “Mobile Experiment for Signals and Systems Courses: Analysis of a Guitar String,” ASEE Conference, Atlanta, Georgia, June 23-26, 2013.
Astatke, Y., Chouikha, M.F., Connor, K.A. , Ferri, A.A., Ferri, B.H., Meehan, K., Newman, D.L., Deyoe, M.M., and Walter, D.J., “ Models of Adoption and Best Practices for Mobile Hands-On Learning in Electrical Engineering,” ASEE/IEEE Frontiers in Education Conference, Oklahoma City, OK, Oct 23-26, 2013.

AU - Aldo A. Ferri
AU - Bonnie H. Ferri
AU - Robert Lineberg
AU - Kevin Peter Ferri
AU - Zachary Crawford
AU - Justin Tamayo
CY - Columbus, Ohio
DA - 2017/06/24
PB - ASEE Conferences
TI - Use of a Vertically Integrated Project Team to Develop Hands-On Learning Modules
UR - https://peer.asee.org/29063
DO - 10.18260/1-2--29063
ER -