The Space Bender: Supporting Natural Walking via Overt Manipulation of the Virtual Environment
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Niels C. Nilsson | Marco Speicher | André Zenner | Florian Daiber | Adalberto L. Simeone | A. Simeone | N. C. Nilsson | André Zenner | M. Speicher | Florian Daiber
[1] Mary C. Whitton,et al. 15 Years of Research on Redirected Walking in Immersive Virtual Environments , 2018, IEEE Computer Graphics and Applications.
[2] Eike Langbehn,et al. Evaluation of Locomotion Techniques for Room-Scale VR: Joystick, Teleportation, and Redirected Walking , 2018, VRIC.
[3] Benjamin Bolte,et al. The Jumper Metaphor: An Effective Navigation Technique for Immersive Display Setups , 2011 .
[4] Timothy P. McNamara,et al. Updating orientation in large virtual environments using scaled translational gain , 2006, APGV '06.
[5] Robbe Cools,et al. Investigating the Effect of Distractor Interactivity for Redirected Walking in Virtual Reality , 2019, SUI.
[6] Sharif Razzaque,et al. Redirected Walking , 2001, Eurographics.
[7] Eike Langbehn,et al. Rethinking Redirected Walking: On the Use of Curvature Gains Beyond Perceptual Limitations and Revisiting Bending Gains , 2018, 2018 IEEE International Symposium on Mixed and Augmented Reality (ISMAR).
[8] Mark T. Bolas,et al. Impossible Spaces: Maximizing Natural Walking in Virtual Environments with Self-Overlapping Architecture , 2012, IEEE Transactions on Visualization and Computer Graphics.
[9] Hannes Kaufmann,et al. Influence of Path Complexity on Spatial Overlap Perception in Virtual Environments , 2015, ICAT-EGVE.
[10] Stefania Serafin,et al. Natural Walking in Virtual Reality , 2018, Comput. Entertain..
[11] Zachary Wartell,et al. Leveraging change blindness for redirection in virtual environments , 2011, 2011 IEEE Virtual Reality Conference.
[12] Mark T. Bolas,et al. Revisiting detection thresholds for redirected walking: combining translation and curvature gains , 2016, SAP.
[13] Mary C. Whitton,et al. Evaluation of Reorientation Techniques and Distractors for Walking in Large Virtual Environments , 2009, IEEE Transactions on Visualization and Computer Graphics.
[14] Doug A. Bowman,et al. Travel in immersive virtual environments: an evaluation of viewpoint motion control techniques , 1997, Proceedings of IEEE 1997 Annual International Symposium on Virtual Reality.
[15] Mel Slater,et al. Using Presence Questionnaires in Reality , 2000, Presence: Teleoperators & Virtual Environments.
[16] Mark T. Bolas,et al. Physical Space Requirements for Redirected Walking: How Size and Shape Affect Performance , 2015, ICAT-EGVE.
[17] Uwe Kloos,et al. Velocity-dependent dynamic curvature gain for redirected walking , 2011, 2011 IEEE Virtual Reality Conference.
[18] Robert S. Kennedy,et al. Simulator Sickness Questionnaire: An enhanced method for quantifying simulator sickness. , 1993 .
[19] Mary C. Whitton,et al. Sensitivity to scene motion for phases of head yaws , 2008, APGV '08.
[20] Hans-Werner Gellersen,et al. Substitutional Reality: Using the Physical Environment to Design Virtual Reality Experiences , 2015, CHI.
[21] Timothy P. McNamara,et al. Exploring large virtual environments with an HMD when physical space is limited , 2007, APGV.
[22] Marc O. Ernst,et al. Walking along curved paths of different angles: the relationship between head and trunk turning , 2008, Experimental Brain Research.
[23] Julian Frommel,et al. Effects of controller-based locomotion on player experience in a virtual reality exploration game , 2017, FDG.
[24] Ifigeneia Mavridou,et al. Altering User Movement Behaviour in Virtual Environments , 2017, IEEE Transactions on Visualization and Computer Graphics.
[25] Rajiv V. Dubey,et al. Point & Teleport Locomotion Technique for Virtual Reality , 2016, CHI PLAY.
[26] Hannes Kaufmann,et al. Flexible spaces: Dynamic layout generation for infinite walking in virtual environments , 2013, 2013 IEEE Symposium on 3D User Interfaces (3DUI).
[27] Doug A. Bowman,et al. Bookshelf and Bird: Enabling real walking in large VR spaces , 2017, 2017 IEEE Symposium on 3D User Interfaces (3DUI).
[28] Klaus H. Hinrichs,et al. Gradual transitions and their effects on presence and distance estimation , 2010, Comput. Graph..
[29] Gerd Bruder,et al. Application of redirected walking in room-scale VR , 2017, 2017 IEEE Virtual Reality (VR).
[30] Gerd Bruder,et al. Bending the Curve: Sensitivity to Bending of Curved Paths and Application in Room-Scale VR , 2017, IEEE Transactions on Visualization and Computer Graphics.
[31] Victoria Interrante,et al. Seven League Boots: A New Metaphor for Augmented Locomotion through Moderately Large Scale Immersive Virtual Environments , 2007, 2007 IEEE Symposium on 3D User Interfaces.
[32] Martin R. Gibbs,et al. Taxonomy of exertion games , 2008, OZCHI.
[33] Klaus H. Hinrichs,et al. Reorientation during Body Turns , 2009, EGVE/ICAT/EuroVR.
[34] Jack M. Loomis,et al. Locomotion Mode Affects the Updating of Objects Encountered During Travel: The Contribution of Vestibular and Proprioceptive Inputs to Path Integration , 1998, Presence.
[35] Gerd Bruder,et al. A taxonomy for deploying redirection techniques in immersive virtual environments , 2012, 2012 IEEE Virtual Reality Workshops (VRW).
[36] Mary C. Whitton,et al. Walking > walking-in-place > flying, in virtual environments , 1999, SIGGRAPH.
[37] Hannes Kaufmann,et al. Towards efficient spatial compression in self-overlapping virtual environments , 2017, 2017 IEEE Symposium on 3D User Interfaces (3DUI).
[38] Li-Yi Wei,et al. Mapping virtual and physical reality , 2016, ACM Trans. Graph..
[39] Gerd Bruder,et al. Estimation of Detection Thresholds for Redirected Walking Techniques , 2010, IEEE Transactions on Visualization and Computer Graphics.
[40] Stefania Serafin,et al. An exploration of input conditions for virtual teleportation , 2017, 2017 IEEE Virtual Reality (VR).