Reality-based interaction affecting mental workload in virtual reality mental arithmetic training

The concept of digital game-based learning (DGBL) evolves rapidly together with technological enhancements of virtual reality (VR) and smart phones. However, the mental workload (MWL) that VR-training applications demand and motivational qualities originating from user experience (UX) should be iden...

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Veröffentlicht in:	Behaviour & information technology 2020-10, Vol.39 (10), p.1062-1078
Hauptverfasser:	Jost, Patrick, Cobb, Sue, Hämmerle, Isabella
Format:	Artikel
Sprache:	eng
Schlagworte:	Arithmetic Clinical trials Computer & video games digital game-based learning education Learning Mental workload reality-based interaction Smartphones Training User experience User interfaces Virtual reality Workload Workloads
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creator	Jost, Patrick Cobb, Sue Hämmerle, Isabella
description	The concept of digital game-based learning (DGBL) evolves rapidly together with technological enhancements of virtual reality (VR) and smart phones. However, the mental workload (MWL) that VR-training applications demand and motivational qualities originating from user experience (UX) should be identified in order to create effective and enjoyable training/learning challenges that fit with individual users' capabilities. This study examined the effects of reality-based interaction (RBI) and VR on measures of student motivation and MWL, in a mental arithmetic game for secondary school pupils. In a randomised controlled trial with sixty school children, a mental arithmetic game was tested with three different interaction and two different presentation methods - VR RBI, VR head-mounted-display tapping and tablet flick-gesture. Results found a significant effect of RBI on MWL but no differences in enjoyment of training were found between VR-experience and tablet training-experience. In fact, adding the gaming-context to the mental arithmetic task created an enjoyable, motivating experience regardless of presentation or interaction-style.
doi_str_mv	10.1080/0144929X.2019.1641228
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subjects	Arithmetic Clinical trials Computer & video games digital game-based learning education Learning Mental workload reality-based interaction Smartphones Training User experience User interfaces Virtual reality Workload Workloads
title	Reality-based interaction affecting mental workload in virtual reality mental arithmetic training
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