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http://dx.doi.org/10.15701/kcgs.2017.23.3.39

A Study on Interaction of Gaze-based User Interface in Mobile Virtual Reality Environment  

Kim, Mingyu (Department of Software, Catholic University of Pusan)
Lee, Jiwon (Department of Software, Catholic University of Pusan)
Jeon, Changyu (Department of Software, Catholic University of Pusan)
Kim, Jinmo (Department of Software, Catholic University of Pusan)
Publication Information
Journal of the Korea Computer Graphics Society / v.23, no.3, 2017 , pp. 39-46 More about this Journal
Abstract
This study proposes a gaze-based user interface to provide user oriented interaction suitable for the virtual reality environment on mobile platforms. For this purpose, a mobile platform-based three-dimensional interactive content is produced, to test whether the proposed interface increases user satisfaction through the interactions in a mobile virtual reality environment. The gaze-based interface, the most common input method for mobile virtual reality content, is designed by considering two factors: the field of view and the feedback system. The performance of the proposed gaze-based interface is analyzed by conducting experiments on whether or not it offers motives for user interest, effects of enhanced immersion, differentiated formats from existing ones, and convenience in operating content.
Keywords
mobile virtual reality; gaze-based user interface; interaction; Immersion; psychological factors;
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Times Cited By KSCI : 1  (Citation Analysis)
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1 M. E. Feisst, "Enabling virtual reality on mobile devices: enhancing students' learning experience," Proc. SPIE 8065, SPIE Eco-Photonics 2011: Sustainable Design, Manufacturing, and Engineering Workforce Education for a Green Future, 2011.
2 M. M. Hayhoe, A. Shrivastava, R. Mruczek and J. Pelz, "Visual memory and motor lanning in a natural task," Journal of Vision, vol. 3, no. 1, pp.49-63, 2003.
3 I.E. Sutherland, "A head-mounted three dimensional display," In Proceedings of the AFIPS '68, pp. 757-764, 1968.
4 M. Ortega and S. Coquillart, "Prop-based haptic interaction with co-location and immersion: an automotive application," IEEE International Workshop on Haptic Audio Visual Environments and their Applications, Ottawa, ON, Canada, 1-2 October, 2005.
5 J. P. Schulze, C. E. Hughes, L. Zhang, E. Edelstein and E. Macagno, "CaveCAD: a tool for architectural design in immersive virtual environments," Proc. SPIE 9012, The Engineering Reality of Virtual Reality 2014, 2014.
6 P. Hoberman, D. M. Krum, E. A. Suma and M. Bolas, "Immersive training games for smartphone-based head mounted displays," Proc. of 2012 IEEE Virtual Reality Workshops (VRW), pp.151-152, 2012.
7 R.S. Johansson, G. Westling, A. Bckstrm and J.R. Flanagan, "Eye-hand coordination in object manipulation," The Journal of Neuroscience, vol. 21, no. 17, pp.6917-6932, 2001.   DOI
8 J.B. Pelz, R. Canosa, J. Babcock and J. Barber, "Visual perception in familiar, complex tasks," Proceedings of the 2001 International Conference on Image Processing, pp.12-15, 2001.
9 C. Antonya, "Accuracy of gaze point estimation in immersive 3D interaction interface based on eye tracking," Control Automation Robotics Vision (ICARCV), 2012 12th International Conference on, pp.1125-1129, 2012.
10 N. Sidorakis, G. A. Koulieris and K. Mania, "Binocular eyetracking for the control of a 3D immersive multimedia user interface," Everyday Virtual Reality (WEVR), 2015 IEEE 1st Workshop on, pp.15-18, 2015.
11 E.M. Kolasinski, "Simulator sickness in virtual environments," Technical report DTIC Document, 1995.
12 J.D. Moss and E.R. Muth, "Characteristics of head-mounted displays and their effects on simulator sickness," Human Factors: The Journal of the Human Factors and Ergonomics Society, vol. 53, no. 3, pp.308-319, 2011.   DOI
13 Y. Kim, Gun A. Lee, Do. Jo, U. Yang, G. Kim and J. Park, "Analysis on virtual interaction-induced fatigue and difficulty in manipulation for interactive 3D gaming console," Consumer Electronics (ICCE), 2011 IEEE International Conference on, pp.269-270, 2011.
14 J. Reason, "Motion sickness adaptation: a neural mismatch model," Journal of the Royal Society of Medicine, vol. 71, no. 11, pp.819-829, 1978.   DOI
15 H,B,-L. Duh, D.E. Parker, J.O. Philips and T.A. Furness, "Conflicting motion cues to the visual and vestibular selfmotion systems around 0.06hz evoke simulator sickness," Human Factors: The Journal of the Human Factors and Ergonomics Society, vol. 46, no. 1, pp.142-153, 2004.   DOI
16 T.A. Stoffregen and L.J. Jr Smart LJ, "Postural instability precedes motion sickness," Brain research bulletin, vol.47, no. 5, pp.437-448, 1998.   DOI
17 J. Lee, M. Kim, C. Jeon and J. Kim, "A Study on Gamepad/Gaze based Input Processing for Mobile Platform Virtual Reality Contents," Journal of the Korea Computer Graphics Societ, vol. 22, no. 3, pp.31-41, 2016.   DOI
18 B.-G. Witmer, C.-J. Jerome, and M.-J. Singer, "The Factor Structure of the Presence Questionnaire," Presence: Teleoper. Virtual Environ., vol. 14, no. 3, pp.298-312, 2005.   DOI