Pedagogical framework to develop interactive virtual tools for the teaching and learning of dynamic systems in Control Engineering
Pedagogical framework to develop interactive virtual tools for the teaching and learning of dynamic systems in Control Engineering
This article provides a theoretical framework for designing interactive simulation tools. The methodology is exemplified in the development of a simulation to study first and second-order dynamical systems in the field of Control Engineering. Theoretical support for the use of simulations in education is derived from cognitive theory and the philosophy of science, while software design follows the principles of multimedia material design, computer simulations, and instructional design. Some key components that integrate the virtual tool include gamification elements such as quizzes, badges, and a wide variety of pedagogical components such as tutorials, instructions, reference material, and help pop-ups. The design principles presented and the experience reported in the development of the simulation program are expected to be of use to other researchers in creating their own interactive tools.
Engineering, Mathematical Models, Simulation, Virtual Laboratories
218-223
Vidal Rosas, Ernesto E.
1da82633-b581-468e-b41a-117b6893a84d
Fernández, Cristina Galván
f0f7589b-fc65-41c9-8f5c-7651e5f0c55e
Vidal Rosas, Ernesto E.
1da82633-b581-468e-b41a-117b6893a84d
Fernández, Cristina Galván
f0f7589b-fc65-41c9-8f5c-7651e5f0c55e
Vidal Rosas, Ernesto E. and Fernández, Cristina Galván
(2022)
Pedagogical framework to develop interactive virtual tools for the teaching and learning of dynamic systems in Control Engineering.
13th IFAC Symposium on Advances in Control Education, ACE 2022, , Hamburg, Germany.
24 - 27 Jul 2022.
.
(doi:10.1016/j.ifacol.2022.09.282).
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Conference or Workshop Item
(Paper)
Abstract
This article provides a theoretical framework for designing interactive simulation tools. The methodology is exemplified in the development of a simulation to study first and second-order dynamical systems in the field of Control Engineering. Theoretical support for the use of simulations in education is derived from cognitive theory and the philosophy of science, while software design follows the principles of multimedia material design, computer simulations, and instructional design. Some key components that integrate the virtual tool include gamification elements such as quizzes, badges, and a wide variety of pedagogical components such as tutorials, instructions, reference material, and help pop-ups. The design principles presented and the experience reported in the development of the simulation program are expected to be of use to other researchers in creating their own interactive tools.
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e-pub ahead of print date: 6 October 2022
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© 2022 The Authors.
Venue - Dates:
13th IFAC Symposium on Advances in Control Education, ACE 2022, , Hamburg, Germany, 2022-07-24 - 2022-07-27
Keywords:
Engineering, Mathematical Models, Simulation, Virtual Laboratories
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Local EPrints ID: 488987
URI: http://eprints.soton.ac.uk/id/eprint/488987
PURE UUID: 8f38afb0-8a04-4f7d-8540-77c34e0bc82d
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Date deposited: 10 Apr 2024 16:46
Last modified: 11 Apr 2024 02:06
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Author:
Ernesto E. Vidal Rosas
Author:
Cristina Galván Fernández
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