Affiliation:
1. Department of Education Universidad del Norte Barranquilla Colombia
2. Department of Engineering Education Virginia Tech Blacksburg Virginia USA
3. Escuela de Ciencias Aplicadas e Ingeniería Universidad EAFIT Medellín Colombia
4. Department of Computer and Information Technology and School of Engineering Education Purdue University West Lafayette Indiana USA
5. Department of Mathematics and Computer Science Eindhoven University of Technology Eindhoven Netherlands
6. Department of Mathematics Purdue University West Lafayette Indiana USA
Abstract
AbstractThis study proposes and demonstrates how computer‐aided methods can be used to extend qualitative data analysis by quantifying qualitative data, and then through exploration, categorization, grouping, and validation. Computer‐aided approaches to inquiry have gained important ground in educational research, mostly through data analytics and large data set processing. We argue that qualitative data analysis methods can also be supported and extended by computer‐aided methods. In particular, we posit that computing capacities rationally applied can expand the innate human ability to recognize patterns and group qualitative information based on similarities. We propose a principled approach to using machine learning in qualitative education research based on the three interrelated elements of the assessment triangle: cognition, observation, and interpretation. Through the lens of the assessment triangle, the study presents three examples of qualitative studies in engineering education that have used computer‐aided methods for visualization and grouping. The first study focuses on characterizing students' written explanations of programming code, using tile plots and hierarchical clustering with binary distances to identify the different approaches that students used to self‐explain. The second study looks into students' modeling and simulation process and elicits the types of knowledge that they used in each step through a think‐aloud protocol. For this purpose, we used a bubble plot and a k‐means clustering algorithm. The third and final study explores engineering faculty's conceptions of teaching, using data from semi‐structured interviews. We grouped these conceptions based on coding similarities, using Jaccard's similarity coefficient, and visualized them using a treemap. We conclude this manuscript by discussing some implications for engineering education qualitative research.
Funder
National Science Foundation