Abstract
Preparing students for advanced technical careers requires more than foundational theory; it demands a shift to genuine research methodology. With the rising need for university-industry partnerships in AI innovation, this case study dissects a successful student-industry AI engineering collaboration project and transforms it into an essential preparation model easily adopted by technology personnel. The student participants include undergraduate and graduate engineering, data science, and computer science students working directly with practicing industry AI engineers. While universities publish most AI research and generate higher-novelty work, industry contributes state-of-the-art models, large datasets, and computational resources. Students gain research readiness, data literacy, and experience with real-world constraints, while industry gains innovative prototypes, extended research capacity, and a prepared talent pipeline. Drawing on qualitative interviews and surveys, the study identifies challenges in such collaborations, proposes a concise three-stage model for effective student-industry AI collaboration, and proposes validation through a successful student-industry project.
Document Type
Brief
DOI
10.5703/1288284318511
Recommended Citation
Park, Hyeong Kyun and Cha, Andrew Joon, "From Coursework to Research: A Scalable Model for Student-Industry AI Collaboration" (2026). Indiana STEM Education Conference. 12.
https://docs.lib.purdue.edu/instemed/2026/briefs/12
From Coursework to Research: A Scalable Model for Student-Industry AI Collaboration
Preparing students for advanced technical careers requires more than foundational theory; it demands a shift to genuine research methodology. With the rising need for university-industry partnerships in AI innovation, this case study dissects a successful student-industry AI engineering collaboration project and transforms it into an essential preparation model easily adopted by technology personnel. The student participants include undergraduate and graduate engineering, data science, and computer science students working directly with practicing industry AI engineers. While universities publish most AI research and generate higher-novelty work, industry contributes state-of-the-art models, large datasets, and computational resources. Students gain research readiness, data literacy, and experience with real-world constraints, while industry gains innovative prototypes, extended research capacity, and a prepared talent pipeline. Drawing on qualitative interviews and surveys, the study identifies challenges in such collaborations, proposes a concise three-stage model for effective student-industry AI collaboration, and proposes validation through a successful student-industry project.