2024
Miguel-Alonso, Ines; Checa, David; Guillen-Sanz, Henar; Bustillo, Andres
Evaluation of the novelty effect in immersive Virtual Reality learning experiences Journal Article
In: Virtual Reality, vol. 28, no. 27, 2024, ISSN: 1434-9957.
Abstract | Links | BibTeX | Tags: head mounted display, Learning, novelty effect, serious games, tutorial, Virtual Reality
@article{miguel-alonso2024,
title = {Evaluation of the novelty effect in immersive Virtual Reality learning experiences},
author = {Ines Miguel-Alonso and David Checa and Henar Guillen-Sanz and Andres Bustillo},
url = {https://doi.org/10.1007/s10055-023-00926-5 },
doi = {https://doi.org/10.1007/s10055-023-00926-5 },
issn = {1434-9957},
year = {2024},
date = {2024-01-21},
urldate = {2024-01-21},
journal = {Virtual Reality},
volume = {28},
number = {27},
abstract = {In this study, the novelty effect or initial fascination with new technology is addressed in the context of an immersive Virtual Reality (iVR) experience. The novelty effect is a significant factor contributing to low learning outcomes during initial VR learning experiences. The aim of this research is to measure the effectiveness of a tutorial at mitigating the novelty effect of iVR learning environments among first-year undergraduate students. The iVR tutorial forms part of the iVR learning experience that involves the assembly of a personal computer, while learning the functions of the main components. 86 students participated in the study, divided into a Control group (without access to the tutorial) and a Treatment group (completing the tutorial). Both groups showed a clear bimodal distribution in previous knowledge, due to previous experience with learning topics, giving us an opportunity to compare tutorial effects with students of different backgrounds. Pre- and post-test questionnaires were used to evaluate the experience. The analysis included such factors as previous knowledge, usability, satisfaction, and learning outcomes categorized into remembering, understanding, and evaluation. The results demonstrated that the tutorial significantly increased overall satisfaction, reduced the learning time required for iVR mechanics, and improved levels of student understanding, and evaluation knowledge. Furthermore, the tutorial helped to homogenize group behavior, particularly benefiting students with less previous experience in the learning topic. However, it was noted that a small number of students still received low marks after the iVR experience, suggesting potential avenues for future research.},
keywords = {head mounted display, Learning, novelty effect, serious games, tutorial, Virtual Reality},
pubstate = {published},
tppubtype = {article}
}
In this study, the novelty effect or initial fascination with new technology is addressed in the context of an immersive Virtual Reality (iVR) experience. The novelty effect is a significant factor contributing to low learning outcomes during initial VR learning experiences. The aim of this research is to measure the effectiveness of a tutorial at mitigating the novelty effect of iVR learning environments among first-year undergraduate students. The iVR tutorial forms part of the iVR learning experience that involves the assembly of a personal computer, while learning the functions of the main components. 86 students participated in the study, divided into a Control group (without access to the tutorial) and a Treatment group (completing the tutorial). Both groups showed a clear bimodal distribution in previous knowledge, due to previous experience with learning topics, giving us an opportunity to compare tutorial effects with students of different backgrounds. Pre- and post-test questionnaires were used to evaluate the experience. The analysis included such factors as previous knowledge, usability, satisfaction, and learning outcomes categorized into remembering, understanding, and evaluation. The results demonstrated that the tutorial significantly increased overall satisfaction, reduced the learning time required for iVR mechanics, and improved levels of student understanding, and evaluation knowledge. Furthermore, the tutorial helped to homogenize group behavior, particularly benefiting students with less previous experience in the learning topic. However, it was noted that a small number of students still received low marks after the iVR experience, suggesting potential avenues for future research.
2019
Checa, David; Bustillo, Andrés
A review of immersive virtual reality serious games to enhance learning and training Journal Article
In: Multimedia Tools and Applications, pp. 1-21, 2019, ISSN: 1380-7501.
Abstract | Links | BibTeX | Tags: Evaluation, Learning, SELECTED, Serious Game, Systematic Literature Review, Virtual Reality
@article{Checa2019b,
title = {A review of immersive virtual reality serious games to enhance learning and training},
author = {David Checa and Andrés Bustillo},
url = {https://link.springer.com/article/10.1007/s11042-019-08348-9?wt_mc=Internal.Event.1.SEM.ArticleAuthorOnlineFirst&utm_source=ArticleAuthorOnlineFirst&utm_medium=email&utm_content=AA_en_06082018&ArticleAuthorOnlineFirst_20191206},
doi = {10.1007/s11042-019-08348-9},
issn = {1380-7501},
year = {2019},
date = {2019-12-05},
journal = {Multimedia Tools and Applications},
pages = {1-21},
abstract = {The merger of game-based approaches and Virtual Reality (VR) environments that can enhance learning and training methodologies have a very promising future, reinforced by the widespread market-availability of affordable software and hardware tools for VR-environments. Rather than passive observers, users engage in those learning environments as active participants, permitting the development of exploration-based learning paradigms. There are separate reviews of VR technologies and serious games for educational and training purposes with a focus on only one knowledge area. However, this review covers 135 proposals for serious games in immersive VR-environments that are combinations of both VR and serious games and that offer end-user validation. First, an analysis of the forum, nationality, and date of publication of the articles is conducted. Then, the application domains, the target audience, the design of the game and its technological implementation, the performance evaluation procedure, and the results are analyzed. The aim here is to identify the factual standards of the proposed solutions and the differences between training and learning applications. Finally, the study lays the basis for future research lines that will develop serious games in immersive VR-environments, providing recommendations for the improvement of these tools and their successful application for the enhancement of both learning and training tasks.},
keywords = {Evaluation, Learning, SELECTED, Serious Game, Systematic Literature Review, Virtual Reality},
pubstate = {published},
tppubtype = {article}
}
The merger of game-based approaches and Virtual Reality (VR) environments that can enhance learning and training methodologies have a very promising future, reinforced by the widespread market-availability of affordable software and hardware tools for VR-environments. Rather than passive observers, users engage in those learning environments as active participants, permitting the development of exploration-based learning paradigms. There are separate reviews of VR technologies and serious games for educational and training purposes with a focus on only one knowledge area. However, this review covers 135 proposals for serious games in immersive VR-environments that are combinations of both VR and serious games and that offer end-user validation. First, an analysis of the forum, nationality, and date of publication of the articles is conducted. Then, the application domains, the target audience, the design of the game and its technological implementation, the performance evaluation procedure, and the results are analyzed. The aim here is to identify the factual standards of the proposed solutions and the differences between training and learning applications. Finally, the study lays the basis for future research lines that will develop serious games in immersive VR-environments, providing recommendations for the improvement of these tools and their successful application for the enhancement of both learning and training tasks.