Abstract
Virtual environments (VE) provide an almost optimal setting for studying human navigation behaviour. The current study compares the ability of human subjects to judge the distance and orientation of places in a natural landscape and in its corresponding virtual 3D model. The results of the Euclidean distance judgements confirm that spatial knowledge acquired in VEs is less accurate than that acquired in the real world. However, distance judgements performed by subjects using a VRbicycle to actively move in the scene (active observer) were more accurate than those of subjects who were automatically driven through the landscape (passive observer). The accuracy of the orientation judgements was the same in both environments and independent of the use of the VRbicycle. The results suggest that the VRbicycle can facilitate the perception of spatial dimensions but that additional improvements of the man-machine interface of our VE are needed to improve the subjects’ sense of orientation.
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References
Alfano, P.L, Michel, G.E. (1990). Restricting the field of view: Perceptual and performance effects. Perceptual and Motor Skills, 70, 35–45
Batschelet, E. (1980). Einführung in die Mathematik für Biologen. [translation: Introductory Mathematics for Biologists] Springer Verlag, Berlin, Heidelberg.
Bliss, J.P., Tidwell, P.D., Guest, M.A. (1997). The effectiveness of virtual reality for administering spatial navigation training to firefighters. Presence, 6(1), 73–86
Chance, S.S., Gaunet, F., Beall, A.C. Loomis, J.M. (1998). Locomotion mode affects updating of objects encountered during travel: The contribution of vestibular and proprioceptive inputs to path integration. Presence, 7(2), 168–178
Darken, R.P, Sibert, J.L. (1993). A toolset for navigation in virtual environments. Proceedings of the ACM User Interface Software & Technology, 157–165
Darken, R.P, Sibert, J.L. (1996). Wayfinding strategies and behaviors in large virtual worlds. Proceedings of ACM SIGCHI 96, 142–149
Darken, R.P., Carmein, D. (1997). The omni-directional treadmill: A locomotion device for virtual worlds. Proceedings of UIST ‘97, 213–221
Distler, H.K. (1996). Psychophysical experiments in virtual environments. In: Virtual Reality World 96 Conference Documentation, Munchen 1996: Computerwoche Verlag AG.
Gillner, S., Mallot, H. A. (1998). Navigation and acquisition of spatial knowledge in a virtual maze. Journal of Cognitive Neuroscience (in press). Also: Technical Report No. 45, 1997, Max-Planck-Institut für biologische Kybernetik, Tübingen.
May, M., Peruch, P., Savoyant, A. (1995). Navigating in a virtual environment with mapacquired knowledge: Encoding and alignment effects. Ecological Psychology, 7(1), 21–36
Okabe, A., Aoki, K., Hamamoto, W. (1986). Distance and direction judgement in a large-scale natural environment. Effects of slope and winding trail. Environment and Behaviour, 18(6), 755–772
Peruch, P., Gaunet, F. (1997). Virtual environments as a promising tool for investigating human spatial cognition. Accepted for publication in Current Psychology of Cognition.
Richardson, A.E., Montello, D.R., Hegarty, M. (1998). Spatial knowledge acquisition from maps, and from navigation in real and virtual environments. Submitted to Memory and Cognition
Ruddle, R.A., Payne, S.J., Jones, D.M. (1997). Navigating buildings in ‘Desk-Top’ virtual environments: Experimental investigations using extended navigational experience. Journal of Experimental Psychology: Applied, 3, 143–159
Singer, M.J., Allen, R.C., McDonald, D.P., Gildea, J.P. (1997). Terrain Appreciation in virtual environments: Spatial knowledge acquisition. Technical Report 1056, United States Army Research Institute for the Behavioral and Social Sciences.
Thorndyke, P.W., Hayes-Roth, B. (1982). Differences in spatial knowledge acquired from maps and navigation. Cognitive Psychology, 14, 560–589
Van Veen, H.A.H.C, Distler, H.K., Braun, S.J., Bulthoff, H.H. (1998). Navigating through a virtual city: Using virtual reality technology to study human action and perception. Accepted for publication in Future Generation Computer Systems.
Waller, D., Hunt, E., Knapp, D. (1998). The transfer of spatial knowledge in virtual environment training. Presence, 7(2), 129–143
Witmer, B.G., Bailey, J.H., Knerr, B.W. (1996). Virtual spaces and real world places: Transfer of route knowledge. International Journal of Human-Computer Studies, 45, 413–428
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Distler, H.K., Van Veen, H.A.H.C., Braun, S.J., Heinz, W., Franz, M.O., Bülthoff, H.H. (1998). Navigation in real and virtual environments: Judging orientation and distance in a large-scale landscape. In: Göbel, M., Landauer, J., Lang, U., Wapler, M. (eds) Virtual Environments ’98. Eurographics. Springer, Vienna. https://doi.org/10.1007/978-3-7091-7519-4_12
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DOI: https://doi.org/10.1007/978-3-7091-7519-4_12
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