22: Haptic perception in space travel

Arnesen NT, Olsen MH, Sylvestre B, Clément G (2005) Perception of body vertical in microgravity during parabolic flight. J Gravitational Physiology 12: P17-18

Bock O (1994) Joint position sense in simulated changed-gravity environments. Aviation, Space, and Environmental Medicine 65: 621-626

Bock O (1996) Grasping of virtual objects in changed gravity. Aviation, Space, and Environmental Medicine 67: 1185-1189

Bock O (1998) Problems of sensorimotor coordination in weightlessness. Brain Res Reviews 28: 155-160

Bock O, Arnold KE, Cheung BSK (1996) Performance of a simple aiming task in hypergravity. II. Detailed response characteristics. Aviation, Space, and Environmental Medicine 67: 133-138

Bock O, Fowler B, Comfort D (2001) Human sensorimotor coordination during spaceflight: An analysis of pointing and tracking responses during the “Neurolab” space shuttle mission. Aviation, Space, and Environmental Medicine 72: 877-883

Bock O, Howard IP, Money KE, Arnold KE (1992) Accuracy of aimed arm movements in changed gravity. Aviation, Space, and Environmental Medicine 63: 994-998

Durlach NI, Mavor AS (1995) Virtual reality - Scientific and technological challenges. National Academy Press, Washington D.C.

Fisk J, Lackner JR, DiZio P (1993) Gravitoinertial force level influences arm movement control. J Neurophysiology 69: 504-511

Flanagan JR, Vetter P, Johansson RS, Wolpert DM (2003) Prediction precedes control in motor learning. Current Biology 13: 146-150

Fowler B, Comfort D, Bock O (2000) A review of cognitive and perceptual-motor performance in space. Aviation, Space, and Environmental Medicine 71, No. 9, Section 11: A66-68

Gentez E, Hatwell Y (1996) Role of gravitational cues in the haptic perception of orientation. Perception and Psychophysics 58: 1278-1292

Hermsdörfer J, Marquardt C, Philipp J, Zierdt A, Nowak D, Glasauer S, Mai N (2000) Moving weightless objects. Grip force control during microgravity. Exp Brain Res 132: 52-64

Jeka JJ, Lackner JR (1995) Fingertip touch as an orientation reference for human postural control. In: T Mergner, F Hlavacka (eds): Multisensory control of posture. Plenum Press, New York, 213-221

Kornilova LN (1997) Orientation illusions in spaceflight. J Vestibular Res 7: 429-439

Reschke MF, Bloomberg JJ, Harm DL, Paloski WH, Layne C, McDonald V (1998) Posture, locomotion, spatial orientation, and motion sickness as a function of space flight. Brain Research Reviews 28: 102-117

Ross HE (1989) Perceptual and motor skills of divers under water. Int Rev Ergonomics 2: 155-181

Ross HE (1991) Motor skills under varied gravitoinertial force in parabolic flight. Acta Astronautica 23: 85-89

Ross HE, Brodie EE (1987) Weber fractions for weight and mass as a function of stimulus intensity. Quarterly J Exp Psychology 39A: 77-78

Ross HE, Brodie EE, Benson AJ (1986) Mass-discrimination in weightlessness and readaptation to earth’s gravity. Exp Brain Res 64: 358-366

Ross HE, Farkin B (1991) Knowledge of arm position under varied gravitoinertial force in parabolic flight. In: V Pletser, JF Couffy (eds): Microgravity Experiments during Parabolic Flights with Caravelle. ESTEC, Netherlands, ESA WPP-021, 147-152

Ross HE, Reschke MF (1982) Mass estimation and discrimination during brief periods of zero gravity. Perception and Psychophysics 31: 429-436

Ross HE, Schwartz E, Emmerson P (1987) The nature of sensorimotor adaptation to G-levels: Evidence from mass-discrimination. Aviation, Space, and Environmental Medicine 58 (9 Suppl): A148-152

Sangals J, Heuer H, Manzey D, Lorenz B (1999) Changed visuomotor transformations during and after prolonged microgravity. Exp Brain Res 129: 378-390

Space Studies Board (1998) Sensorimotor integration. Ch.5. In: A strategy for research in space biology and medicine in the new century. Washington, D.C., National Research Council, 63-79

Tan HZ, Srinivasan MA, Eberman B, Cheng B (1994) Human factors for the design of force-reflecting haptic interfaces. In: CJ Radcliffe (ed): Dynamic systems and control, Vol. 55-1. The American Society of Mechanical Engineers

Veringa F (1987) Arm positioning in microgravity during D1 Challenger flight. In: PR Sahm, R Jansen, MH Keller (eds): Proc Norderney Symposium on Scientific Results of the German Spacelab Mission D1. DFVLR, Cologne, 537-540

Watt DGD (1997) Pointing at memorized targets during prolonged microgravity. Aviation, Space and Environmental Medicine 68: 99-103

Watt DGD, Money KE, Bondar RL, Thirsk RB, Garneau M, Scully-Power P (1985) Canadian medical experiments on shuttle flight 41-G. Canadian Aeronautical and Space Journal 31: 215-226

Whiteside TCD (1961) Hand-eye coordination in weightlessness. Aerospace Medicine 32: 318-322

Young LR, Oman CM, Merfeld D et al (1993) Spatial orientation and posture during and following weightlessness: human experiments on Spacelab Life Sciences1. J Vestibular Res 3: 231-239

Young LR, Oman CM, Watt DGD, Money KE, Lichtenberg BK (1984) Spatial orientation in weightlessness and readaptation to Earth’s gravity. Science 225: 205-208

Young LR, Shelhamer M (1990) Microgravity enhances the relative contribution of visuallyinduced motion sensation. Aviation, Space, and Environmental Medicine 61: 525-530