Biomedical Engineering Reference
In-Depth Information
53. Kobayashi Y, Osaka R, Hara T, Fujimoto H (2008) How accurately people can discriminate
the differences of floor materials with various elasticities. IEEE Trans Neural Syst Rehabil
Eng 16(1):99-105
54. Kobayashi Y, Takashima T, Hayashi M, Fujimoto H (2005) Gait analysis of people walking
on tactile ground surface indicators. IEEE Trans Neural Syst Rehabil Eng 13(1):53-59
55. Kuchenbecker KJ, Fiene J, Niemeyer G (2006) Improving contact realism through event-based
haptic feedback. IEEE Trans Visual Comput Graph 12(2):219-230
56. LaViola JJ, Feliz DA, Keefe DF, Zeleznik RC (2001) Hands-free multi-scale navigation in
virtual environments. In: Proceedings of the ACM symposium on interactive 3D graphics. pp
9-15
57. Law AW, Ip J, Peck B, Visell Y, Kry PG, Cooperstock JR (2009) Multimodal floor for immer-
sive environments. In: ACM SIGGRAPH emerging technologies
58. Lécuyer A (2009) Simulating haptic feedback using vision: a survey of research and applica-
tions of pseudo-haptic feedback. Presence: Teleoper Virtual Environ 18(1):39-53
59. Lécuyer A, Burkhardt J-M, Etienne L (2004) Feeling bumps and holes without a haptic
interface: the perception of pseudo-haptic textures. In: Proceedings of SIGCHI conference on
human factors in computing systems, pp 239-246
60. Lécuyer A, Burkhardt J-M, Henaff J-M, Donikian S (2006) Camera motions improve sensation
of walking in virtual environments. In: Proceedings of IEEE international conference on virtual
reality, pp 11-18
61. Li X, Logan RJ, Pastore RE (1991) Perception of acoustic source characteristics: walking
sounds. J Acoust Soc Am 90(6):3036-3049
62. MacLean KE (2008) Foundations of transparency in tactile information design. IEEE Trans
Haptics 1(2):84-95
63. MacLellan MJ, Patla AE (2006) Adaptations of walking pattern on a compliant surface to
regulate dynamic stability. Exp Brain Res 173(3):521-530
64. Mahvash M, Hayward V (2001) Haptic rendering of cutting: a fracture mechanics approach.
Haptics-e 2(3):1-12
65. Marchal M, Lécuyer A, Cirio G, Bonnet L, Emily M (2010) Walking up and down in immersive
virtual worlds: novel interactive techniques based on visual feedback. In: Proceedings of IEEE
symposium on 3D user interface, pp 19-26
66. Marigold DS, Patla AE (2005) Adapting locomotion to different surface compliances: neu-
romuscular responses and changes in movement dynamics. J Neurophysiol 94(3):1733
67. Michon JA (ed) (1993) Generic intelligent driver support. CRC Press, Boca Raton
68. Morioka M, Whitehouse DJ, Griffin MJ (2008) Vibrotactile thresholds at the fingertip, volar
forearm, large toe, and heel. Somatosens Mot Res 25(2):101-112
69. Moritz CT, Farley CT (2004) Passive dynamics change leg mechanics for an unexpected
surface during human hopping. J Appl Physiol 97(4):1313
70. Moritz CT, Greene SM, Farley CT (2004) Neuromuscular changes for hopping on a range of
damped surfaces. J Appl Physiol 96(5):1996
71. Nashel A, Razzaque S (2003) Tactile virtual buttons for mobile devices. In: Proceedings of
ACM CHI. pp 854-855
72. Nasuno S, Kudrolli A, Bak A, Gollub JP (1998) Time-resolved studies of stick-slip friction
in sheared granular layers. Phys Rev E 58(2):2161-2171
73. Nasuno S, Kudrolli A, Gollub JP (1997) Friction in granular layers: hysteresis and precursors.
Phys Rev Lett 79(5):949-952
74. Nordahl R (2006) Increasing the motion of users in photorealistic virtual environments by
utilizing auditory rendering of the environment and ego-motion. In: Proceedings of presence,
pp 57-62
75. Norman D (2007) The design of future things. Basic Books, New York
76. Papetti S, Civolani M, Fontana F (2011) Rhythmnshoes: a wearable foot tapping interface
with audio-tactile feedback. In: Proceedings of international conference of new interfaces for
musical expression
