Litcius/Paper detail

Therminator: Understanding the Interdependency of Visual and On-Body Thermal Feedback in Virtual Reality

Sebastian Günther, Florian Müller, Dominik Schön, Omar Elmoghazy, Max Mühlhäuser, Martin Schmitz

202079 citationsDOI

Abstract

Recent advances have made Virtual Reality (VR) more realistic than ever before. This improved realism is attributed to today's ability to increasingly appeal to human sensations, such as visual, auditory or tactile. While research also examines temperature sensation as an important aspect, the interdependency of visual and thermal perception in VR is still underexplored. In this paper, we propose Therminator, a thermal display concept that provides warm and cold on-body feedback in VR through heat conduction of flowing liquids with different temperatures. Further, we systematically evaluate the interdependency of different visual and thermal stimuli on the temperature perception of arm and abdomen with 25 participants. As part of the results, we found varying temperature perception depending on the stimuli, as well as increasing involvement of users during conditions with matching stimuli.

Topics & Concepts

Thermal sensationPerceptionInterdependenceVirtual realityHuman–computer interactionComputer scienceThermal conductionThermalVisual perceptionCognitive psychologySimulationPsychologyMaterials sciencePhysicsThermal comfortMeteorologyComposite materialNeuroscienceThermodynamicsLawPolitical scienceVirtual Reality Applications and ImpactsColor perception and designSport Psychology and Performance