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RESEARCH PRODUCT
Evaluating the Authenticity of Virtual Environments: Comparison of Three Devices
Rebekah RousiJussi P. P. JokinenAila Kronqvistsubject
immersionArticle SubjectComputer sciencemedia_common.quotation_subject02 engineering and technologycomputer.software_genreQuality of resultshuman-technology interactionlcsh:QA75.5-76.95authenticityHuman–computer interactionuser experience0202 electrical engineering electronic engineering information engineeringImmersion (virtual reality)0501 psychology and cognitive sciencesautenttisuus050107 human factorsmedia_commonta113Multimediabusiness.industry05 social sciences020207 software engineeringUsabilityHuman-Computer InteractionFeelingvirtual environmentsSimulator sicknesslcsh:Electronic computers. Computer sciencekäyttäjäkokemusbusinessImmersive virtual environmentcomputerdescription
Immersive virtual environments (VEs) have the potential to provide novel cost effective ways for evaluating not only new environments and usability scenarios, but also potential user experiences. To achieve this, VEs must be adequately realistic. The level of perceived authenticity can be ascertained by measuring the levels of immersion people experience in their VE interactions. In this paper the degree of authenticity is measured via anauthenticity indexin relation to three different immersive virtual environment devices. These devices include (1) a headband, (2) 3D glasses, and (3) a head-mounted display (HMD). A quick scale for measuring immersion, feeling of control, and simulator sickness was developed and tested. The HMD proved to be the most immersive device, although the headband was demonstrated as being a more stable environment causing the least simulator sickness. The results have design implication as they provide insight into specific factors which make experience in a VE seem more authentic to users. The paper emphasizes that, in addition to the quality of the VE, focus needs to be placed on ergonomic factors such as the weight of the devices, as these may compromise the quality of results obtained when examining studying human-technology interaction in a VE.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2016-01-01 | Advances in Human-Computer Interaction |