Board 321: Integrating Design Thinking and Digital Fabrication into Engineering Technology Education through Interdisciplinary Professional Learning

Christopher Russell; Josh Labrie; Antarjot Kaur

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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: NSF Grantees Poster Session
Tagged Topic: NSF Grantees Poster Session
Page Count: 6
DOI: 10.18260/1-2--42907
Permanent URL: https://peer.asee.org/42907
Download Count: 154

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Paper Authors

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Christopher Russell Northern Virginia Community College

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Christopher Russell is the Information and Engineering Technologies Project Manager at Northern Virginia College. His research focuses on developing novel methods of integrating digital fabrication into formal and informal STEM instruction. Currently, he manages two NSF ATE awards - Makers By Design, a design thinking professional learning program for interdisciplinary groups of educators, and Product Design Incubator, a summer-long entrepreneurship program for community college students.

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Josh Labrie Northern Virginia Community College

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Josh earned a B.S. in Chemistry and a Master's in Teaching at the University of Virginia, and taught chemistry and physical science in Prince William County Public Schools for 9 years. He joined Northern Virginia Community College (NOVA) in 2012 as the program manager of NOVA SySTEMic, the college’s STEM program to expand regional capacity for STEM talent in northern Virginia. As the Director of NOVA SySTEMic he leads the team in STEM Outreach, manages NOVA’s Perkins V award, and maintains a portfolio of NSF and private grants to support STEM and CTE pathways in the region.

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Antarjot Kaur

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Abstract

In Northern Virginia, engineering technology career pathways are underdeveloped. Rapid changes in industrial processes have led to an increased need for adaptable and flexible workers who can respond creatively to shifting production technologies (Agarwal et al., 2018). In particular, workers with expertise in design thinking, communication, and critical thinking skills are in high demand (Giffi et al., 2018). Despite high wages created by this demand, engineering technology careers are largely invisible to students and the belief that manufacturing is low-tech persists (Giffi et al., 2017; Magnolia Consulting, 2022). These conditions suggest that investment in teacher professional learning (PL) is warranted. The integration of digital fabrication (e.g., 3D printing) into classroom teaching is one promising avenue to increase student interest and awareness of engineering technology careers (Peppler et al., 2016). However, studies of classroom implementation of digital fabrication technologies also report that teachers struggle to move beyond “keychain syndrome” – the tendency to fall back to reproducing simple objects, such as a keychain (Blikstein, 2014; Eisenberg, 2013). Educator PL in digital fabrication has centered on machine operation, and not the pedagogy, cognitive strategies, and processes to situate the technology (Smith et al., 2015). This project investigates the effectiveness of a sustained and interdisciplinary design thinking PL fellowship (“Makers By Design”) in improving integration of fabrication and design thinking into teaching practice. Design thinking is a non-linear user-centered strategy used to approach the design of products, emphasizing collaborative project-based methods to solve real-life problems (Brown, 2008). In the classroom, design thinking can serve as a cognitive bridge between a design problem and digital fabrication technologies. Participating Makers By Design fellows (n=17) completed 1) a series of design thinking workshops, 2) practice teaching at digital fabrication summer camps, and 3) development and integration of a design thinking challenge. Fellows completed the above in interdisciplinary groups consisting of K-12 teachers, college faculty, and librarians. Using a mixed-methods approach, this paper evaluates the extent to which participating educators reported increased confidence in integrating design thinking and digital fabrication into their instruction, demonstrated content mastery during teaching practice, and successfully developed and deployed design challenges. Data sources include pre- and post-surveys, focus groups within teaching discipline, and observations of summer camp and classroom teaching. Project results are aligned with the existing literature on successful PL (e.g., Capps et al., 2012) and recommendations for future digital fabrication-centered PL are discussed.

Citation
Format

Russell, C., & Labrie, J., & Kaur, A. (2023, June), Board 321: Integrating Design Thinking and Digital Fabrication into Engineering Technology Education through Interdisciplinary Professional Learning Paper presented at 2023 ASEE Annual Conference & Exposition, Baltimore , Maryland. 10.18260/1-2--42907

TY  - CPAPER
AB  -    In Northern Virginia, engineering technology career pathways are underdeveloped. Rapid changes in industrial processes have led to an increased need for adaptable and flexible workers who can respond creatively to shifting production technologies (Agarwal et al., 2018). In particular, workers with expertise in design thinking, communication, and critical thinking skills are in high demand (Giffi et al., 2018). Despite high wages created by this demand, engineering technology careers are largely invisible to students and the belief that manufacturing is low-tech persists (Giffi et al., 2017; Magnolia Consulting, 2022). These conditions suggest that investment in teacher professional learning (PL) is warranted.
   The integration of digital fabrication (e.g., 3D printing) into classroom teaching is one promising avenue to increase student interest and awareness of engineering technology careers (Peppler et al., 2016). However, studies of classroom implementation of digital fabrication technologies also report that teachers struggle to move beyond “keychain syndrome” – the tendency to fall back to reproducing simple objects, such as a keychain (Blikstein, 2014; Eisenberg, 2013). Educator PL in digital fabrication has centered on machine operation, and not the pedagogy, cognitive strategies, and processes to situate the technology (Smith et al., 2015).
   This project investigates the effectiveness of a sustained and interdisciplinary design thinking PL fellowship (“Makers By Design”) in improving integration of fabrication and design thinking into teaching practice. Design thinking is a non-linear user-centered strategy used to approach the design of products, emphasizing collaborative project-based methods to solve real-life problems (Brown, 2008). In the classroom, design thinking can serve as a cognitive bridge between a design problem and digital fabrication technologies. Participating Makers By Design fellows (n=17) completed 1) a series of design thinking workshops, 2) practice teaching at digital fabrication summer camps, and 3) development and integration of a design thinking challenge. Fellows completed the above in interdisciplinary groups consisting of K-12 teachers, college faculty, and librarians.
   Using a mixed-methods approach, this paper evaluates the extent to which participating educators reported increased confidence in integrating design thinking and digital fabrication into their instruction, demonstrated content mastery during teaching practice, and successfully developed and deployed design challenges. Data sources include pre- and post-surveys, focus groups within teaching discipline, and observations of summer camp and classroom teaching. Project results are aligned with the existing literature on successful PL (e.g., Capps et al., 2012) and recommendations for future digital fabrication-centered PL are discussed.

AU  - Christopher Russell
AU  - Josh Labrie
AU  - Antarjot Kaur
CY  - Baltimore , Maryland
DA  - 2023/06/25
PB  - ASEE Conferences
TI  - Board 321: Integrating Design Thinking and Digital Fabrication into Engineering Technology Education through Interdisciplinary Professional Learning
UR  - https://peer.asee.org/42907
DO  - 10.18260/1-2--42907
ER  -