Evaluating participant responses to a virtual reality experience using reinforcement learning

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.

[1]  Alejandro Beacco,et al.  Disturbance and Plausibility in a Virtual Rock Concert: A Pilot Study , 2021, 2021 IEEE Virtual Reality and 3D User Interfaces (VR).

[2]  Timothy J. Loving,et al.  Evaluating Virtual Reality Experiences Through Participant Choices , 2020, 2020 IEEE Conference on Virtual Reality and 3D User Interfaces (VR).

[3]  Ludovic Hoyet,et al.  Avatar and Sense of Embodiment: Studying the Relative Preference Between Appearance, Control and Point of View , 2020, IEEE Transactions on Visualization and Computer Graphics.

[4]  Bobby Bodenheimer,et al.  Improving Walking in Place Methods with Individualization and Deep Networks , 2019, 2019 IEEE Conference on Virtual Reality and 3D User Interfaces (VR).

[5]  BoYu Gao,et al.  Sensory and Perceptual Consistency for Believable Response in Action Feedback Loop , 2018, CGI 2018.

[6]  Sergey Levine,et al.  Soft Actor-Critic: Off-Policy Maximum Entropy Deep Reinforcement Learning with a Stochastic Actor , 2018, ICML.

[7]  Aki Vehtari,et al.  Visualization in Bayesian workflow , 2017, Journal of the Royal Statistical Society: Series A (Statistics in Society).

[8]  Alec Radford,et al.  Proximal Policy Optimization Algorithms , 2017, ArXiv.

[9]  Mary C. Whitton,et al.  A Psychophysical Experiment Regarding Components of the Plausibility Illusion , 2017, IEEE Transactions on Visualization and Computer Graphics.

[10]  Mel Slater,et al.  The Plausibility of a String Quartet Performance in Virtual Reality , 2017, IEEE Transactions on Visualization and Computer Graphics.

[11]  Marcus A. Brubaker,et al.  Stan: A Probabilistic Programming Language. , 2017, Journal of statistical software.

[12]  G. Dunn,et al.  Self-Confidence and Paranoia: An Experimental Study Using an Immersive Virtual Reality Social Situation , 2014, Behavioural and Cognitive Psychotherapy.

[13]  Joaquim A. Jorge,et al.  Combining EEG Data with Place and Plausibility Responses as an Approach to Measuring Presence in Outdoor Virtual Environments , 2014, PRESENCE: Teleoperators and Virtual Environments.

[14]  Mel Slater,et al.  Height, social comparison, and paranoia: An immersive virtual reality experimental study , 2014, Psychiatry Research.

[15]  Joan Llobera,et al.  The relationship between virtual body ownership and temperature sensitivity , 2013, Journal of The Royal Society Interface.

[16]  Bing Liu,et al.  Sentiment Analysis and Opinion Mining , 2012, Synthesis Lectures on Human Language Technologies.

[17]  Mel Slater,et al.  Simulating virtual environments within virtual environments as the basis for a psychophysics of presence , 2010, ACM Trans. Graph..

[18]  Albert Rizzo,et al.  Virtual Reality Exposure Therapy for Post-Traumatic Stress Disorder and Other Anxiety Disorders , 2010, Current psychiatry reports.

[19]  Mary C. Whitton,et al.  GUD WIP: Gait-Understanding-Driven Walking-In-Place , 2010, 2010 IEEE Virtual Reality Conference (VR).

[20]  Mel Slater,et al.  Place illusion and plausibility can lead to realistic behaviour in immersive virtual environments , 2009, Philosophical Transactions of the Royal Society B: Biological Sciences.

[21]  B. Spanlang,et al.  Visual Realism Enhances Realistic Response in an Immersive Virtual Environment - Part 2 , 2009, IEEE Computer Graphics and Applications.

[22]  G. Dunn,et al.  Virtual reality study of paranoid thinking in the general population , 2008, British Journal of Psychiatry.

[23]  Maria V. Sanchez-Vives,et al.  From presence to consciousness through virtual reality , 2005, Nature Reviews Neuroscience.

[24]  Sharif Razzaque,et al.  The Responses of People to Virtual Humans in an Immersive Virtual Environment , 2005, Presence: Teleoperators & Virtual Environments.

[25]  Mel Slater,et al.  How Colorful Was Your Day? Why Questionnaires Cannot Assess Presence in Virtual Environments , 2004, Presence: Teleoperators & Virtual Environments.

[26]  M. Krijn,et al.  Virtual reality exposure therapy of anxiety disorders: a review. , 2004, Clinical psychology review.

[27]  M. Whitton,et al.  Effect of latency on presence in stressful virtual environments , 2003, IEEE Virtual Reality, 2003. Proceedings..

[28]  Michael Meehan,et al.  Physiological measures of presence in stressful virtual environments , 2002, SIGGRAPH.

[29]  Chris Barker,et al.  An Experiment on Public Speaking Anxiety in Response to Three Different Types of Virtual Audience , 2002, Presence: Teleoperators & Virtual Environments.

[30]  Mary C. Whitton,et al.  Walking > walking-in-place > flying, in virtual environments , 1999, SIGGRAPH.

[31]  Mel Slater,et al.  Public Speaking in Virtual Reality: Facing an Audience of Avatars , 1999, IEEE Computer Graphics and Applications.

[32]  Woodrow Barfield,et al.  Presence in virtual environments as a function of type of input device and display update rate , 1998 .

[33]  David B. Kaber,et al.  Telepresence , 1998, Hum. Factors.

[34]  Mel Slater,et al.  The Influence of Body Movement on Subjective Presence in Virtual Environments , 1998, Hum. Factors.

[35]  Mel Slater,et al.  A Framework for Immersive Virtual Environments (FIVE): Speculations on the Role of Presence in Virtual Environments , 1997, Presence: Teleoperators & Virtual Environments.

[36]  Mel Slater,et al.  The Influence of Dynamic Shadows on Presence in Immersive Virtual Environments , 1995, Virtual Environments.

[37]  Ben J. A. Kröse,et al.  Learning from delayed rewards , 1995, Robotics Auton. Syst..

[38]  Mel Slater,et al.  Taking steps: the influence of a walking technique on presence in virtual reality , 1995, TCHI.

[39]  Woodrow Barfield,et al.  The effect of update rate on the sense of presence within virtual environments , 1995, Virtual Reality.

[40]  Thomas B. Sheridan,et al.  Further Musings on the Psychophysics of Presence , 1994, Presence: Teleoperators & Virtual Environments.

[41]  Peter Dayan,et al.  Q-learning , 1992, Machine Learning.

[42]  Thomas B. Sheridan,et al.  Musings on Telepresence and Virtual Presence , 1992, Presence: Teleoperators & Virtual Environments.

[43]  C. Aggarwal Opinion Mining and Sentiment Analysis , 2018 .

[44]  Ron Kohavi,et al.  Online Controlled Experiments and A/B Testing , 2017, Encyclopedia of Machine Learning and Data Mining.

[45]  Gaspar da Silva,et al.  3-D Sound Enhanced Presence in Virtual Environments , 2013 .

[46]  Mel Slater,et al.  Visual Realism Enhances Realistic Response in an Immersive Virtual Environment , 2009, IEEE Computer Graphics and Applications.

[47]  Lawrence W. Stark,et al.  The Effects of Pictorial Realism, Delay of Visual Feedback, and Observer Interactivity on the Subjective Sense of Presence , 1996, Presence: Teleoperators & Virtual Environments.

[48]  Woodrow Barfield,et al.  Presence within Virtual Environments as a Function of Visual Display Parameters , 1996, Presence: Teleoperators & Virtual Environments.

[49]  Mel Slater,et al.  Body Centred Interaction in Immersive Virtual Environments , 1994 .

[50]  Mel Slater,et al.  Depth of Presence in Virtual Environments , 1994, Presence: Teleoperators & Virtual Environments.

[51]  Mel Slater,et al.  Representations Systems, Perceptual Position, and Presence in Immersive Virtual Environments , 1993, Presence: Teleoperators & Virtual Environments.

[52]  Jack M. Loomis,et al.  Distal Attribution and Presence , 1992, Presence: Teleoperators & Virtual Environments.

[53]  Nathaniel I. Durlach,et al.  Telepresence , 1992, Presence: Teleoperators & Virtual Environments.