Biomedical Engineering Reference
In-Depth Information
Dodwell PC, ed (1971) Perceptual processing: stimulus equivalence and pattern recognition
(pp. 41-72). Appleton-Century-Crofts, New York
48. Huang J, Chiu W, Lin Y, Tsai M, Bai H, Tai C, Gau C, Lee H (2000) The gait sensing disc: a
compact locomotion device for the virtual environment. In: Proceedings of the international
conference in central Europe on computer graphics, visualization and interactive digital media.
Pilsen, Czech Republic
49. Iwata H (2000) Locomotion interface for virtual environments. In: Hollerbach J, Koditshek
D (eds) Robotics research: the ninth international symposium. Springer-Verlag, London, pp
275-282
50. Iwata H, Yano H, Fukushima H, Noma H (2005) CirculaFloor. IEEE Comput Graph Appl
25:64-67
51. Iwata I, Yano H, Nakaizumi F (2001) Gait master: a versatile locomotion interface for uneven
virtual terrain. In: Proceedings of IEEE virtual reality conference, pp. 131-137
52. Jürgens R, Becker W (2006) Perception of angular displacement without landmarks: evidence
for Bayesian fusion of vestibular, optokinetic, podokinesthetic, and cognitive information. Exp
Brain Res 174:528-543
53. Jürgens R, Boß T, Becker W (1999) Estimation of self-turning during active and passive
rotation in the dark. Exp Brain Res 128:491-504
54. Kearns MJ, Warren WH, Duchon AP, Tarr MJ (2002) Path integration from optic flow and
body senses in a homing task. Perception 31:349-374
55. Klatzky RL, Loomis JM, Beall AC, Chance SS, Golledge RG (1998) Updating an egocentric
spatial representation during real, imagined, and virtual locomotion. Psychol Sci 9:293-298
56. Kubovy M (1986) The psychology of linear perspective and renaissance art. Cambridge
University Press, Cambridge
57. Lackner JP, DiZio P (2005) Vestibular, proprioceptive, and haptic contributions to spatial
orientation. Ann Rev Psychol 56:115-147
58. Lappe M, Bremmer F, van den Berg AV (1999) Perception of self-motion from visual flow.
Trends Cogn Sci 3:329-336
59. Larish JF, Flach JM (1990) Sources of optical information useful for perception of speed of
rectilinear self-motion. J Exp Psychol Hum Percept Perform 16:295-302
60. Lederman SJ, Klatzky RL (2009) Haptic perception: a tutorial. Atten Percept Psychophys
71:1439-1459
61. Lepecq J, Giannopulu I, Baudonnière P (1995) Cognitive effects on visually induced body
motion in children. Perception 24:435-449
62. Loomis JM, Klatzky RL, Golledge RG, Philbeck JW (1999) Human navigation by path
integration. In: Golledge RG (ed) Wayfinding: cognitive mapping and other spatial processes.
Johns Hopkins, Baltimore, pp 125-151
63. Loomis JM, KlatzkyRL, AvraamidesM, LippaY, GolledgeRG (2007) Functional equivalence
of spatial images produced by perception and spatial language. In: Mast F, Jäncke L (eds)
Spatial processing in navigation, imagery, and perception. Springer, New York, pp 29-48
64. May M, Klatzky RL (2000) Path integration while ignoring irrelevant movement. J Exp
Psychol Learn Mem Cogn 26:169-186
65. Medina E, Fruland R, Weghorst S (2008) Virtusphere: walking in a human size VR “hamster
ball”. In: Proceedings of the human factors and ergonomics society, pp 2102-2106
66. Mittelstaedt H (1996) Somatic graviception. Biol Psychol 42:53-74
67. Mittelstaedt ML, Mittelstaedt H (2001) Idiothetic navigation in humans: estimation of path
length. Exp Brain Res 139:318-332
68. Nardini M, Jones P, Bedford R, Braddick O (2008) Development of cue integration in human
navigation. Curr Biol 18:689-693
69. Neider MB, Gaspar JG, McCarley JS, Crowell J, Kaczmarski H, Kramer AF (2011) Walking
and talking: dual-task effects on street crossing behavior in older adults. Psychology and
Aging (Advance online publication)
70. Nielsen TI (1963) Volition: a new experimental approach. Scand J Psychol 4:225-230
