参考文献:1.Dichgans, J., Brandt, T.: Visual-vestibular interactions: effects on self-motion perception and postural control. In: Held, R., Leibowitz, H.W., Teuber, H.L. (eds.) Handbook of Sensory Physiology, vol. 8, pp. 755–804. Springer, Heidelberg (1978) 2.Kitazaki, M., Sato, T.: Attentional modulation of self-motion perception. Perception 32, 475–484 (2003)CrossRef 3.Iwata, H.: Walking about virtual environments on an infinite floor. In: Proceedings of IEEE VR 1999, pp. 286–293 (1999) 4.Iwata, H., Yano, H., Nakaizumi, F.: Gait Master: a versatile locomotion interface for uneven virtual terrain. In: Proceedings of IEEE VR 2001, pp. 131–137 (2001) 5.Gravano, S., Ivanenko, Y.P., Maccioni, G., Macellari, V., Poppele, R.E., Lacquaniti, F.: A novel approach to mechanical foot stimulation during human locomotion under body weight support. Hum. Mov. Sci. 30, 352–367 (2011)CrossRef 6.Cheron, G., Duvinage, M., De Saedeleer, C., Castermans, T., Bengoetxea, A., Petieau, M., Seetharaman, K., Hoellinger, T., Dan, B., Dutoit, T., Sylos Labini, F., Lacquaniti, F., Ivanenko, Y.: From spinal central pattern generators to cortical network: integrated BCI for walking rehabilitation. Neural Plast. 2012, 375148 (2012) 7.Dodgson, N.A.: Variation and extrema of human interpupillary distance. In: Proceedings of SPIE, 5291, Stereoscopic Displays and Virtual Reality Systems XI (2004). doi:10.1117/12.529999
14. Department of Computer Science and Engineering, Toyohashi University of Technology, Toyohashi, Aichi, Japan 15. Graduate School of Information Systems, The University of Electro-Communications, Tokyo, Japan 16. Graduate School of System Design, Tokyo Metropolitan University, Tokyo, Japan
丛书名:Human Interface and the Management of Information:Information, Design and Interaction
ISBN:978-3-319-40349-6
刊物类别:Computer Science
刊物主题:Artificial Intelligence and Robotics Computer Communication Networks Software Engineering Data Encryption Database Management Computation by Abstract Devices Algorithm Analysis and Problem Complexity
出版者:Springer Berlin / Heidelberg
ISSN:1611-3349
卷排序:9734
文摘
Various sensory stimuli are required to accomplish a fully virtual walking system because walking is related to multimodal sensations. We developed a minimal virtual walking system and evaluated it using psychological factors. The system consisted of a real-scene optic flow and rhythmic foot vibrations. We tested the effects of vibrations synchronized with optic flow and the size of the visual field on the sensations of virtual walking and found that synchronized, two-channel foot vibrations with a 3-D optic flow elicited the virtual walking sensation. A larger visual field enhanced the footstep sensation during walking.