Using Fuzzy Logic to Involve Individual Differences for Predicting Cybersickness during VR Navigation

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TitreUsing Fuzzy Logic to Involve Individual Differences for Predicting Cybersickness during VR Navigation
Type de publicationConference Paper
Year of Publication2021
AuteursWang Y, Chardonnet J-R, Merienne F, Ovtcharova J
Conference Name2021 IEEE VIRTUAL REALITY AND 3D USER INTERFACES (VR)
PublisherIEEE; IEEE Comp Soc; Virbela; Tecnico Lisboa; Immers Learning Res Network; Qualcomm; Vicon; HitLabNZ AIGI; Microsoft; Appen; Facebook Real Labs Res; XR Bootcamp; NSF; Fakespace Labs
Conference Location10662 LOS VAQUEROS CIRCLE, PO BOX 3014, LOS ALAMITOS, CA 90720-1264 USA
ISBN Number978-1-6654-1838-6
Mots-clésartificial intelligence, Computing methodologies, Human computer interaction (HCI), Human-centered computing, Information Retrieval, information systems, Interaction paradigms, Knowledge representation and reasoning, Personalization, Users and interactive retrieval, Vagueness and fuzzy logic, Virtual reality
Résumé

Many studies have explored how individual differences can affect users' susceptibility to cybersickness in a VR application. However, the lack of strategy to integrate the influence of each factor on cybersickness makes it difficult to utilize the results of existing research. Based on the fuzzy logic theory that can represent the effect of different factors as a single value containing integrated information, we developed two approaches including the knowledge-based Mamdani-type fuzzy inference system and the data-driven Adaptive neuro-fuzzy inference system (ANFIS) to involve three individual differences (Age, Gaming experience and Ethnicity). We correlated the corresponding outputs with the simulator sickness questionnaire (SSQ) scores in a simple navigation scenario. The correlation coefficients obtained through a 4-fold cross validation were found statistically significant with both fuzzy logic approaches, indicating their effectiveness to influence the occurrence and the level of cybersickness. Our work provides insights to establish customized experiences for VR navigation by involving individual differences.

DOI10.1109/VR50410.2021.00060