Real, virtual, or simulated: Approaches to emergency remote learning in engineering

Real, virtual, or simulated: Approaches to emergency remote learning in engineering

Practical engagement, which can be conducted in real, virtual, and simulated modes, is well known to support the cementing of conceptual knowledge in engineering education. This paper proposes integrating the benefits of the different modes in the context of control system learning in a mechatronics...

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Bibliographic Details
Published in:Computer applications in engineering education Vol. 30; no. 1; pp. 93 - 105
Main Authors: Kruger, Karel, Wolff, Karin, Cairncross, Kieran
Format: Journal Article
Language:English
Published: Hoboken Wiley Subscription Services, Inc 01-01-2022
Subjects:
Cementing
control education
Control theory
Engineering education
laboratory education
Learning
learning support
Mechatronics
simulated practicals
Simulation
virtual practicals
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Summary:Practical engagement, which can be conducted in real, virtual, and simulated modes, is well known to support the cementing of conceptual knowledge in engineering education. This paper proposes integrating the benefits of the different modes in the context of control system learning in a mechatronics engineering course. A low‐cost ball‐on‐beal demonstrator with a Matlab/Simulink software interface is used to bridge the theory‐practice divide in teaching state space control theory. The paper examines the contribution of each mode of learning to highlight how student learning is supported across cognitive, affective and systemic domains. Drawing on student feedback, performance data and lecturer observation, the analysis demonstrates that the virtual system supported cognitive and conceptual learning, while the simulated system presented significant systemic challenges. The lack of access to the real system as a result of emergency remote teaching challenges assumptions about the scope of learning possible in only virtual and simulated modes.
ISSN:1061-3773
1099-0542
DOI:10.1002/cae.22444