Litcius/Paper detail

Evaluating participant responses to a virtual reality experience using reinforcement learning

Joan Llobera, Alejandro Beacco, Ramon Oliva, Gizem Şenel, Domna Banakou, Mel Slater

2021Royal Society Open Science17 citationsDOIOpen Access PDF

Abstract

Virtual reality applications depend on multiple factors, for example, quality of rendering, responsiveness, and interfaces. In order to evaluate the relative contributions of different factors to quality of experience, post-exposure questionnaires are typically used. Questionnaires are problematic as the questions can frame how participants think about their experience and cannot easily take account of non-additivity among the various factors. Traditional experimental design can incorporate non-additivity but with a large factorial design table beyond two factors. Here, we extend a previous method by introducing a reinforcement learning (RL) agent that proposes possible changes to factor levels during the exposure and requires the participant to either accept these or not. Eventually, the RL converges on a policy where no further proposed changes are accepted. An experiment was carried out with 20 participants where four binary factors were considered. A consistent configuration of factors emerged where participants preferred to use a teleportation technique for navigation (compared to walking-in-place), a full-body representation (rather than hands only), the responsiveness of virtual human characters (compared to being ignored) and realistic compared to cartoon rendering. We propose this new method to evaluate participant choices and discuss various extensions.

Topics & Concepts

Computer scienceRendering (computer graphics)Human–computer interactionVirtual realityReinforcement learningQuality (philosophy)Artificial intelligenceCognitive psychologyPsychologyEpistemologyPhilosophyVirtual Reality Applications and ImpactsImage and Video Quality AssessmentVisual perception and processing mechanisms