Linking First-year Computing Courses to Engage Commuter Students

Lily Liang; Briana Lowe Wellman; Rui Kang

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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: Computing and Information Technology Division (CIT) Technical Session 4
Tagged Division: Computing and Information Technology Division (CIT)
Tagged Topic: Diversity
Permanent URL: https://peer.asee.org/47749

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Paper Authors

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Lily Liang University of the District of Columbia

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Dr. Lily Rui Liang is a full professor and Graduate Program Director at the Department of Computer Science and Information Technology, University of the District of Columbia. Dr. Liang joined the University of the District of Columbia in 2004 after receiving her Ph.D. in Computer Science and Engineering from the University of Nevada, Reno, Nevada. Her research areas include computer science education, cybersecurity, artificial intelligence, and digital image processing. She has mentored dozens of graduate and undergraduate students in research and K-12 outreach activities and is the Director of the Excellence in Computing and Information Technology Education (ExCITE) program. She is a fellow of the Center for the Advancement of STEM Leadership Program (CASL) and the Opportunities for Under-Represented Scholars (OURS) post-graduate institutional leadership certificate program and an alumna of the Frontiers of Engineering Education program (FOEE) of the National Academy of Engineering. She has been serving on the Project Kaleidoscope (PKAL) Capital Area Regional Network steering committee since 2016

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Briana Lowe Wellman University of the District of Columbia

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Dr. Briana Lowe Wellman is an associate professor and chair in the Department of Computer Science and Information Technology at the University of the District of Columbia. She joined UDC in May 2012 after receiving her Ph.D. in Computer Science from The U

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Rui Kang

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Rui Kang is Professor of Secondary Education (6-12) of Georgia College & State University (GCSU). She teaches graduate courses in numerous areas, including math pedagogy, assessment, educational research, and learner development. She holds two Ph.D. degrees, in Curriculum and Instruction from Texas A&M University (2007) and in Mathematics Education from the University of Georgia (2022). Her scholarship focuses on mathematics teaching and learning, STEM education, and teacher preparation and professional development. Her 20+ publications include articles that appear in journals such as International Journal of Science and Mathematics Education, Journal of Social Studies Research, School Science and Mathematics, and Mathematics Teacher. She served as the Program Chair of the Special Interest Group (SIG) Democratic Citizenship in Education of the American Educational Research Association (AERA) from 2016 to 2018. She has taught high school mathematics and holds a clear renewable teaching certificate in mathematics in the state of Georgia. She currently serves as a Co-Principal Investigator (Co-PI) of a National Science Foundation (NSF) S-STEM grant.

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Abstract

Commuter students face unique challenges in integrating into college learning communities. Engaging with first-year commuter students became incredibly challenging after the pandemic forced learning communities to transform into virtual or hybrid environments. To address this challenge, we developed a linked-courses approach to engage first-year commuter students in our departmental learning community. We linked two introductory courses, Computer Science I (CS I) and Computing Foundation, with joint-curricular and extra-curricular activities offered by upper-class students from student clubs and a departmental service-learning program. Informed by the situated-learning theory, our approach creates the context for the first-year students, the novice, to interact with the more experienced upper-class students and develop their sense of community and belonging.

After analyzing the syllabi and schedules of both classes, we conducted the following activities during Spring 2023. • A joint seminar, AI & Dance. Upper-class students presented to the students in the linked courses how AI was applied to dancing. They also facilitated first-year students experimenting with software, generating visual effects based on their body movements detected through cameras.

• A joint seminar on women’s role in cryptography history, hosted by the Department’s ACM-Women clubs and presented remotely by the National Cryptologic Museum.

• Two separate robotics workshops. The Department’s service-learning program students presented how to program robots to follow the torchlight of a cellphone with loops and branches. To offer the joint events, we leveraged the overlapping class time between CS I and Foundations of Computing and the time immediately after CS I. The CS I students were incentivized with extra credits to stay after their lab until the end of the seminars.

We collected qualitative data to evaluate our approach because it provides in-depth insight into the problem, i.e., the student needs we are trying to address. Group interviews were conducted at the end of Spring 2023. A total of fifteen students from the two linked courses participated. The qualitative data helped us understand the minority students’ experiences and explore their perspectives.

Our end-of-semester interviews showed that the linked activities increased the students’ understanding of computing and established meaningful relationships with upper-class students. Some of the students joined student organizations or became volunteer presenters. One student commented on our approach: “It provides a bigger network for us, gives you an opportunity to interact with those students …you interact with people you’d probably wouldn’t interact with…., you can add them on LinkedIn, or you see them on campus, you can talk to them, and, …, get help from them.”

We also discovered that students would like to have more of the following: 1) Project-based learning experiences. 2) Group activities. 3) Hands-on experiences.

Our preliminary data shows that our linked-courses approach effectively engages first-year computing students. Other commuter schools or schools with commuter students can adopt this innovative, low-cost approach to engage students and increase retention. We plan to continue this study in the next few semesters to collect more data and explore how it works with different courses.

Citation
Format

Liang, L., & Wellman, B. L., & Kang, R. (2024, June), Linking First-year Computing Courses to Engage Commuter Students Paper presented at 2024 ASEE Annual Conference & Exposition, Portland, Oregon. https://peer.asee.org/47749

TY  - CPAPER
AB  - Commuter students face unique challenges in integrating into college learning communities. Engaging with first-year commuter students became incredibly challenging after the pandemic forced learning communities to transform into virtual or hybrid environments. To address this challenge, we developed a linked-courses approach to engage first-year commuter students in our departmental learning community. We linked two introductory courses, Computer Science I (CS I) and Computing Foundation, with joint-curricular and extra-curricular activities offered by upper-class students from student clubs and a departmental service-learning program. Informed by the situated-learning theory, our approach creates the context for the first-year students, the novice, to interact with the more experienced upper-class students and develop their sense of community and belonging.

After analyzing the syllabi and schedules of both classes, we conducted the following activities during Spring 2023. 
•	A joint seminar, AI &amp;amp; Dance. Upper-class students presented to the students in the linked courses how AI was applied to dancing. They also facilitated first-year students experimenting with software, generating visual effects based on their body movements detected through cameras.

•	A joint seminar on women’s role in cryptography history, hosted by the Department’s ACM-Women clubs and presented remotely by the National Cryptologic Museum.

•	Two separate robotics workshops. The Department’s service-learning program students presented how to program robots to follow the torchlight of a cellphone with loops and branches.  
 
To offer the joint events, we leveraged the overlapping class time between CS I and Foundations of Computing and the time immediately after CS I. The CS I students were incentivized with extra credits to stay after their lab until the end of the seminars. 

We collected qualitative data to evaluate our approach because it provides in-depth insight into the problem, i.e., the student needs we are trying to address. Group interviews were conducted at the end of Spring 2023.   A total of fifteen students from the two linked courses participated. The qualitative data helped us understand the minority students’ experiences and explore their perspectives. 

Our end-of-semester interviews showed that the linked activities increased the students’ understanding of computing and established meaningful relationships with upper-class students. Some of the students joined student organizations or became volunteer presenters. One student commented on our approach: “It provides a bigger network for us, gives you an opportunity to interact with those students …you interact with people you’d probably wouldn’t interact with…., you can add them on LinkedIn, or you see them on campus, you can talk to them, and, …, get help from them.”

We also discovered that students would like to have more of the following: 
1)	Project-based learning experiences. 
2)	Group activities. 
3)	Hands-on experiences. 

Our preliminary data shows that our linked-courses approach effectively engages first-year computing students. Other commuter schools or schools with commuter students can adopt this innovative, low-cost approach to engage students and increase retention. We plan to continue this study in the next few semesters to collect more data and explore how it works with different courses. 

AU  - Lily Liang
AU  - Briana Lowe Wellman
AU  - Rui Kang
CY  - Portland, Oregon
DA  - 2024/06/23
PB  - ASEE Conferences
TI  - Linking First-year Computing Courses to Engage Commuter Students
UR  - https://peer.asee.org/47749
ER  -