Differences in otolith and abdominal viscera graviceptor dynamics: implications for motion sickness and perceived body position.
暂无分享,去创建一个
[1] R. Malcolm,et al. Erroneous perception of vertical motion by humans seated in the upright position. , 1974, Acta oto-laryngologica.
[2] H Mittelstaedt,et al. The relative effect of saccular and somatosensory information on spatial perception and control. , 1988, Advances in oto-rhino-laryngology.
[3] R R COERMANN,et al. Human tolerance to whole body sinusoidal vibration. Short-time, one-minute and three-minute studies. , 1960, Aerospace medicine.
[4] F. Guedry. Psychophysics of Vestibular Sensation , 1974 .
[5] J R Lackner,et al. Decreased susceptibility to motion sickness during exposure to visual inversion in microgravity. , 1991, Aviation, space, and environmental medicine.
[6] H Mittelstaedt,et al. Somatic versus Vestibular Gravity Reception in Man , 1992, Annals of the New York Academy of Sciences.
[7] M J Griffin,et al. Prediction of the incidence of motion sickness from the magnitude, frequency, and duration of vertical oscillation. , 1986, The Journal of the Acoustical Society of America.
[8] Coermann Rr,et al. Human tolerance to whole body sinusoidal vibration. Short-time, one-minute and three-minute studies. , 1960 .
[9] Professor Dr. Heinrich Dupuis,et al. The Effects of Whole-Body Vibration , 1986, Springer Berlin Heidelberg.
[10] J P Landolt,et al. Motion sickness caused by rotations about Earth-horizontal and Earth-vertical axes. , 1981, Journal of applied physiology: respiratory, environmental and exercise physiology.
[11] Benson Aj,et al. Interaction of linear and angular accelerations on vestibular receptors in man. , 1966 .
[12] W. Grant,et al. Otolith-organ mechanics: lumped parameter model and dynamic response. , 1987, Aviation, space, and environmental medicine.
[13] R. S. Kellogg. Dynamic counterrolling of the eye in normal subjects and in persons with bilateral labyrinthine defects , 1965 .
[14] L. Young,et al. A revised dynamic otolith model. , 1968, Aerospace medicine.
[15] C. Bonthoux,et al. Biodynamic response of the human body in the sitting position when subjected to vertical vibration , 1983 .
[16] Millard F. Reschke. Microgravity vestibular investigations (10-IML-1) , 1992 .
[18] W. S. Clark,et al. Deformation of the Human Body Due to Uni-Directional Forced Sinusoidal Vibration , 1962, Human factors.
[19] J. Goldberg,et al. Physiology of peripheral neurons innervating otolith organs of the squirrel monkey. I. Response to static tilts and to long-duration centrifugal force. , 1976, Journal of neurophysiology.
[20] Michael E. McCauley,et al. MOTION SICKNESS INCIDENCE: EXPLORATORY STUDIES OF HABITUATION, PITCH AND ROLL, AND THE REFINEMENT OF A MATHEMATICAL MODEL , 1976 .
[21] L. Young,et al. Subjective detection of vertical acceleration: a velocity-dependent response? , 1978, Acta oto-laryngologica.
[22] A Graybiel,et al. Inversion illusion in parabolic flight: its probable dependence on otolith function. , 1966, Aerospace medicine.
[23] Ashton Graybiel,et al. Influence of Gravitoinertial Force Level on Apparent Magnitude of Coriolis Cross-Coupled Angular Accelerations and Motion Sickness, , 1984 .