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Comparison of Controller-Based Locomotion Techniques for Visual Observation in Virtual Reality

Jussi Rantala, Jari Kangas, Olli Koskinen, Tomi Nukarinen, Roope Raisamo

2021Multimodal Technologies and Interaction31 citationsDOIOpen Access PDF

Abstract

Many virtual reality (VR) applications use teleport for locomotion. The non-continuous locomotion of teleport is suited for VR controllers and can minimize simulator sickness, but it can also reduce spatial awareness compared to continuous locomotion. Our aim was to create continuous, controller-based locomotion techniques that would support spatial awareness. We compared the new techniques, slider and grab, with teleport in a task where participants counted small visual targets in a VR environment. Task performance was assessed by asking participants to report how many visual targets they found. The results showed that slider and grab were significantly faster to use than teleport, and they did not cause significantly more simulator sickness than teleport. Moreover, the continuous techniques provided better spatial awareness than teleport.

Topics & Concepts

Simulator sicknessVirtual realityTask (project management)Computer scienceHuman–computer interactionController (irrigation)SimulationArtificial intelligenceEngineeringAgronomySystems engineeringBiologyVirtual Reality Applications and ImpactsHuman-Automation Interaction and SafetyTeleoperation and Haptic Systems