TY - GEN
T1 - Log-Based Multidimensional Measurement of CT Acquisition
AU - Israel-Fishelson, Rotem
AU - Hershkovitz, Arnon
N1 - Publisher Copyright:
© Authors(s) 2022.
PY - 2022
Y1 - 2022
N2 - Computational thinking (CT) has been proven challenging to conceptualize and assess. When assessing CT using problem-solving tasks, it is commonly measured based on achievements, that is, in a unidimensional summative way. However, this traditional measurement neglects to consider vital components of the learning progress, which may produce a richer, formative assessment. Using the log files drawn from an online learning platform for CT (Kodetu), we suggest a nuanced evaluation of CT acquisition which consists of four variables: number of attempts to solve a problem; time to solution; application of newly presented CT concept; and solution originality. The research population included 189 middle-school students who participated in a workshop aimed at promoting CT and creativity. Using a learning analytics approach, we analyzed data from a log file documenting 1478 student-task pairs. Findings suggest that these variables share some common features that make them suitable for assessing CT acquisition. Furthermore, the variables grasp different aspects of the learning progress; hence, taken together, they allow for a richer evaluation of CT acquisition. These results shed light on the importance of using diverse metrics to examine CT and contribute to the proliferation of assessment practices.
AB - Computational thinking (CT) has been proven challenging to conceptualize and assess. When assessing CT using problem-solving tasks, it is commonly measured based on achievements, that is, in a unidimensional summative way. However, this traditional measurement neglects to consider vital components of the learning progress, which may produce a richer, formative assessment. Using the log files drawn from an online learning platform for CT (Kodetu), we suggest a nuanced evaluation of CT acquisition which consists of four variables: number of attempts to solve a problem; time to solution; application of newly presented CT concept; and solution originality. The research population included 189 middle-school students who participated in a workshop aimed at promoting CT and creativity. Using a learning analytics approach, we analyzed data from a log file documenting 1478 student-task pairs. Findings suggest that these variables share some common features that make them suitable for assessing CT acquisition. Furthermore, the variables grasp different aspects of the learning progress; hence, taken together, they allow for a richer evaluation of CT acquisition. These results shed light on the importance of using diverse metrics to examine CT and contribute to the proliferation of assessment practices.
KW - achievements
KW - assessment
KW - Computational thinking
KW - CT concepts
KW - originality
UR - http://www.scopus.com/inward/record.url?scp=85197441390&partnerID=8YFLogxK
U2 - 10.34641/ctestem.2022.477
DO - 10.34641/ctestem.2022.477
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AN - SCOPUS:85197441390
SN - 9789463665636
T3 - Proceedings of International Conference on Computational Thinking Education
SP - 128
EP - 133
BT - Proceedings of 6th APSCE International Conference on Computational Thinking and STEM Education, CTE-STEM 2022
A2 - Zhang, Xiaoling
A2 - Glahn, Christian
A2 - Fanchamps, Nardie
A2 - Specht, Marcus
PB - The Education University of Hong Kong
T2 - 6th APSCE International Conference on Computational Thinking and STEM Education, CTE-STEM 2022
Y2 - 15 June 2022 through 17 June 2022
ER -