Eight-Year Journey with the FIRST Program: How Robots Build Kids

Justin Jin; Parker Olkowski; James Chengda Lu; Vincent Liu; Ilias M Bakri; Aditya Rao; Yu-Fang Jin; Isabel Xu

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Conference: 2024 ASEE Annual Conference & Exposition
Location: Portland, Oregon
Publication Date: June 23, 2024
Start Date: June 23, 2024
End Date: July 12, 2024
Conference Session: Krusty's Creations: Robotics and Electronics in Springfield STEAM, Hey Hey!
Tagged Division: Pre-College Engineering Education Division (PCEE)
Permanent URL: https://peer.asee.org/47228

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Paper Authors

biography

Justin Jin TechnoWizards

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Justin Jin is currently a student with the Louis D. Brandeis High School. He has been an active member of FIRST Lego League and FIRST Tech Challenge community for 9 years. His interest focus on business, computer science, and game development.

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Parker Olkowski

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Parker Olkowski is currently a student at Louis D. Brandeis High School. He has been an active member of the FIRST Lego League and Tech Challenge community for 6 years. His interests focus on robotics, electrical engineering, and 3D modeling.

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James Chengda Lu BASIS Shavano

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James Chengda Lu is currently a junior at BASIS San Antonio Shavano. He has been an active member of the FIRST Tech Challenge community for 4 years. His interests include mechatronics and robotics. Through interning with the NASA SEES (STEM Enhancement in Earth Science) Program, he has recently completed a CubeSAT project under the support of the Twiggs Space Labs. He has advocated for STEM education through organizing international outreaches, attending national conferences, and creating and implementing regional conferences, webinars, podcasts, and demos, with a special focus on robotics.

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Vincent Liu Brandeis High School

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Vincent Liu is currently a student attending Louis D. Brandeis High School. He has been an active member of FIRST Lego League and Tech Challenge community for 9 years. His interests are in robotics and aerospace.

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Ilias M Bakri

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Ilias M. Bakri is currently a junior at Louis D. Brandeis High School in San Antonio, Texas. He has been an active member of the FIRST Tech Challenge (FTC) community for 5 years. Ilias has also been involved in the ALPHA/GT and NHS clubs, and in the Tennis team at his school. His interests are robotics and engineering.

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Aditya Rao

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Aditya Rao is a student attending the Northside School of Innovation, Technology, and Entrepreneurship. He has participated in FIRST Tech Challenge Robotics for 4 years with the intentions of gaining experience in computer science and technology.

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Yu-Fang Jin The University of Texas, San Antonio orcid.org/0000-0002-7421-527X

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Dr. Yufang Jin got her Ph.D from University of Central Florida in 2004. After her graduation, she joined the University of Texas at San Antonio (UTSA). Currently, she is a Professor with the Department of Electrical and Computer Engineering at UTSA. Her research interest focus on applications of artificial intelligence, interpretation of deep learning models, and engineering education.

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Isabel Xu

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Abstract

Innovation in Science, Technology, Engineering, and Mathematics (STEM) is essential for the prosperity of the US economy and its job sectors. To equip the next generation of STEM professionals with the skills needed for innovation and to tackle the challenges of globalization, K-12 education plays a key role in laying the groundwork for STEM education. In addition to the significant efforts made by the US government, collaborative community initiatives such as international robotics competitions have emerged as valuable platforms for K-12 students to apply STEM and soft skills within the context of robot competitions. These competitions foster an environment of gracious professionalism, inspiring more students to pursue careers in STEM fields while also ensuring a positively challenging and enjoyable experience. With kids’ continuous endeavor to build robots through the annual competitions, robots also build kids by enhancing their self-esteem, forging their identities, and cultivating essential characteristics such as persistence, proactivity, and passion, which are vital for their future academic and career development. Furthermore, diverse themes in annual robotic competitions facilitate project-based learning (PBL) opportunities tailored to children of varying ages. This study explores an eight-year PBL journey of a robotic team, from FIRST Lego League (FLL) to FIRST Tech Challenge (FTC) competitions, detailing their evolution from novices to a globally competitive unit and the personal growth of its members into societal leaders.

Each year, team activities were separated into multiple technical, outreach, or joint projects, with each project incorporating key PBL elements. The FIRST competition manual was carefully read and discussed with the team, fostering open discussions on enhancing robot performance and achieving broader team impacts. Coaches introduced necessary skills during FLL contests for members under Grade 7, while older members independently sought out specific training from professional mentors for FTC challenges. Through document reviews, discussions, and guidance from coaches and mentors, the team identified challenges and solutions, assigned roles to each task collaboratively, and conducted weekly reviews of project milestones and task completions. The team’s performance and robot games were assessed by judges in FIRST competitions.

Longitudinal comparisons of PBL outcomes were performed considering the team members’ self-evaluation, satisfactory level of team parents, and impacts of team activities. It recorded 153 training sessions on technical and soft skills, including mechanical engineering, programming, usage of sensors, computer-aided design, and 3D printing, alongside skills in professional communication, oral and written presentation, engineering notebook documentation, and conflict resolution. Each senior member contributed about 3,522 hours to practice and competition, with an additional 780 hours in outreach efforts assisting 10 FIRST teams and engaging thousands of individuals. These efforts underline the team’s accomplishments in skill development, career readiness, and community engagement, demonstrating a model of successful PBL with consistently enhanced performance.

By sharing this journey, the study seeks to illustrate the incremental development of technical skills alongside soft skills and the cultivation of essential characteristics such as persistence, proactivity, and passion, which are vital for their future academic and career development. The concept of "Robots build kids" encapsulates a journey of transformation where PBL-guided robotic education has played a pivotal role in shaping well-rounded individuals.

Citation
Format

Jin, J., & Olkowski, P., & Lu, J. C., & Liu, V., & Bakri, I. M., & Rao, A., & Jin, Y., & Xu, I. (2024, June), Eight-Year Journey with the FIRST Program: How Robots Build Kids Paper presented at 2024 ASEE Annual Conference & Exposition, Portland, Oregon. https://peer.asee.org/47228

TY  - CPAPER
AB  - Innovation in Science, Technology, Engineering, and Mathematics (STEM) is essential for the prosperity of the US economy and its job sectors. To equip the next generation of STEM professionals with the skills needed for innovation and to tackle the challenges of globalization, K-12 education plays a key role in laying the groundwork for STEM education. In addition to the significant efforts made by the US government, collaborative community initiatives such as international robotics competitions have emerged as valuable platforms for K-12 students to apply STEM and soft skills within the context of robot competitions. These competitions foster an environment of gracious professionalism, inspiring more students to pursue careers in STEM fields while also ensuring a positively challenging and enjoyable experience. With kids’ continuous endeavor to build robots through the annual competitions, robots also build kids by enhancing their self-esteem, forging their identities, and cultivating essential characteristics such as persistence, proactivity, and passion, which are vital for their future academic and career development. Furthermore, diverse themes in annual robotic competitions facilitate project-based learning (PBL) opportunities tailored to children of varying ages. This study explores an eight-year PBL journey of a robotic team, from FIRST Lego League (FLL) to FIRST Tech Challenge (FTC) competitions, detailing their evolution from novices to a globally competitive unit and the personal growth of its members into societal leaders.

Each year, team activities were separated into multiple technical, outreach, or joint projects, with each project incorporating key PBL elements. The FIRST competition manual was carefully read and discussed with the team, fostering open discussions on enhancing robot performance and achieving broader team impacts. Coaches introduced necessary skills during FLL contests for members under Grade 7, while older members independently sought out specific training from professional mentors for FTC challenges. Through document reviews, discussions, and guidance from coaches and mentors, the team identified challenges and solutions, assigned roles to each task collaboratively, and conducted weekly reviews of project milestones and task completions. The team’s performance and robot games were assessed by judges in FIRST competitions.

Longitudinal comparisons of PBL outcomes were performed considering the team members’ self-evaluation, satisfactory level of team parents, and impacts of team 
 activities. It recorded 153 training sessions on technical and soft skills, including mechanical engineering, programming, usage of sensors, computer-aided design, and 3D printing, alongside skills in professional communication, oral and written presentation, engineering notebook documentation, and conflict resolution. Each senior member contributed about 3,522 hours to practice and competition, with an additional 780 hours in outreach efforts assisting 10 FIRST teams and engaging thousands of individuals. These efforts underline the team’s accomplishments in skill development, career readiness, and community engagement, demonstrating a model of successful PBL with consistently enhanced performance. 

By sharing this journey, the study seeks to illustrate the incremental development of technical skills alongside soft skills and the cultivation of essential characteristics such as persistence, proactivity, and passion, which are vital for their future academic and career development. The concept of &quot;Robots build kids&quot; encapsulates a journey of transformation where PBL-guided robotic education has played a pivotal role in shaping well-rounded individuals. 
AU  - Justin Jin
AU  - Parker Olkowski
AU  - James Chengda Lu
AU  - Vincent Liu
AU  - Ilias M Bakri
AU  - Aditya Rao
AU  - Yu-Fang Jin
AU  - Isabel Xu
CY  - Portland, Oregon
DA  - 2024/06/23
PB  - ASEE Conferences
TI  - Eight-Year Journey with the FIRST Program: How Robots Build Kids
UR  - https://peer.asee.org/47228
ER  -