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References

  • Bekey G (1962). The human operator as a sampled-data system. IRE Transactions on human factors in electronics HFE-3, 4351
  • Brenner E, Smeets JBJ & De Lussanet MHE (1998). Hitting moving targets – continuous control of the acceleration of the hand on the basis of the target's velocity. Exp Brain Res 122, 467474.
  • Casadio M, Morasso PG & Sanguineti V (2005). Direct measurement of ankle stiffness during quiet standing: implications for control modelling and clinical application. Gait Posture 21, 410424.
  • Cattel J (1886). The influence of the intensity of the stimulus on the length of the reaction time. Brain 9, 512514.
  • Cenciarini M & Peterka RJ (2006). Stimulus-dependent changes in the vestibular contribution to human postural control. J Neurophysiol 95, 27332750.
  • Chocolle R (1940). Variation in auditory reaction times as a function of intensity at different frequencies. Annee Psychol 41, 65124.
  • Collins JJ & De Luca CJ (1995). The effects of visual input on open-loop and closed-loop postural control mechanisms. Exp Brain Res 103, 151163.
  • Costello RG (1968). The surge model of the well-trained operator in simple manual control. IEEE Transactions on man-machine system. MMS-9 1, 29.
  • Craik K (1947). Theory of the human operator in control systems. I. The operator as an engineering system. Br J Psychol 38, 5661.
  • Day BL & Brown P (2001). Evidence for subcortical involvement in the visual control of human reaching. Brain 124, 18321840.
  • Diener HC, Dichgans J, Bruzek W & Selinka H (1982). Stabilisation of human posture during induced oscillations of the body. Exp Brain Res 45, 126132.
  • Doeringer JA & Hogan N (1998). Intermittency in preplanned elbow movements persists in the absence of visual feedback. J Neurophysiol 80, 17871799.
  • Evans CM, Fellows SJ, Rack PM, Ross HF & Walters DK (1983). Response of the normal human ankle joint to imposed sinusoidal movements. J Physiol 344, 483502.
  • Fitzpatrick R & McCloskey DI (1994). Proprioceptive, visual and vestibular thresholds for the perception of sway during standing in humans. J Physiol 478, 173186.
  • Fitzpatrick R, Rogers DK & McCloskey DI (1994). Stable human standing with lower-limb muscle afferents providing the only sensory input. J Physiol 480, 395403.
  • Fukuoka Y, Nagata T, Ishida A & Minamitani H (2001). Characteristics of somatosensory feedback in postural control during standing. IEEE Trans Neural Syst Rehabil Eng 9, 145153.
  • Jeka J, Kiemel T, Creath R, Horak F & Peterka R (2004). Controlling human upright posture: velocity information is more accurate than position or acceleration. J Neurophysiol 92, 23682379.
  • Lakie M, Caplan N & Loram ID (2003). Human balancing of an inverted pendulum with a compliant linkage: neural control by anticipatory intermittent bias. J Physiol 551, 357370.
  • Lestienne F, Soechting JF & Berthoz A (1977). Postural readjustment induced by linear motion of visual scenes. Exp Brain Res 45, 363384.
  • Loram ID, Gawthrop PJ & Lakie M (2006). The frequency of human, manual adjustments in balancing an inverted pendulum is constrained by intrinsic physiological factors. J Physiol 577, 417432.
  • Loram ID, Kelly S & Lakie M (2001). Human balancing of an inverted pendulum: is sway size controlled by ankle impedance? J Physiol 532, 879891.
  • Loram ID & Lakie M (2002). Direct measurement of human ankle stiffness during quiet standing: the intrinsic mechanical stiffness is insufficient for stability. J Physiol 545, 10411053.
  • Loram ID, Maganaris CN & Lakie M (2005a). Active, non-spring-like muscle movements in human postural sway: how might paradoxical changes in muscle length be produced? J Physiol 564, 281293.
  • Loram ID, Maganaris CN & Lakie M (2005b). Human postural sway results from frequent, ballistic bias impulses by soleus and gastrocnemius. J Physiol 564, 295311.
  • McCollum G, Shupert CL & Nashner LM (1996). Organizing sensory information for postural control in altered sensory environments. J Theor Biol 180, 257270.
  • Miall RC, Weir DJ & Stein JF (1993). Intermittency in human manual tracking tasks. J Mot Behav 25, 5363.
  • Morasso PG & Schieppati M (1999). Can muscle stiffness alone stabilize upright standing? J Neurophysiol 82, 16221626.
  • Nagata T, Fukuoka Y, Ishida A & Minamitani H (2001). Analysis of role of vision in human upright posture control. Engineering Med Biol Soc Proc 23rd Annu Int Conf IEEE 2, 11551158.
  • Nashner LM & Berthoz A (1978). Visual contributions to rapid motor responses during postural control. Brain Res 150, 403407.
  • Neilson PD, Neilson MD & O'Dwyer NJ (1988). Internal models and intermittency: a theoretical account of human tracking behavior. Biol Cybern 58, 101112.
  • Pashler H & Johnston JC (1998). Attentional limitations in dual-task performance. In Attention. ed. H Pashler. Psychology Press, UK .
  • Peterka RJ (2002). Sensorimotor integration in human postural control. J Neurophysiol 88, 10971118.
  • Poulton EC (1974). Tracking Skill and Manual Control. Academic Press, New York .
  • Prochazka A (1996). Proprioceptive feedback and movement regulation. In Handbook of Physiology, Exercise: Regulation and Integration of Multiple Systems, ed. Rowell L & Sheperd JT pp. 89127, American Physiological Society, New York .
  • Rack PM, Ross HF, Thilmann AF & Walters DK (1983). Reflex responses at the human ankle: the importance of tendon compliance. J Physiol 344, 503524.
  • Reed DW, Liu XG & Miall RC (2003). On-line feedback control of human visually guided slow ramp tracking: effects of spatial separation of visual cues. Neurosci Lett 338, 209212.
  • Rose JE, Hind JE, Anderson DJ & Brugge TF (1971). Some effects of stimulus intensity on the response of auditory nerve fibres in the squirrel monkey. J Neurophysiol 34, 685699.
  • Saijo N, Murakami I, Nishida S & Gomi H (2005). Large-field visual motion directly induces an involuntary rapid manual following response. J Neurosci 25 20, 49414951.
  • Slifkin A & Newell KM. Noise, information transmission and force variability. J Exp Psychol Hum Percept Perform 25, 837851.
  • Slifkin A, Vaillancourt D & Newell KM (2000). Intermittency in the control of continuous force production. J Neurophysiol 84, 17081718.
  • Stephens J & Taylor A (1974). The effects of visual feedback on physiological muscle tremor. Electroencephalogr Clin Neurophysiol 36, 457476.
  • Sutton G & Sykes K (1967). The effect of withdrawal of visual presentation of errors upon the frequency spectrum of tremor in a manual task. J Physiol 190, 281293.
  • Vince MA (1948). The intermittency of control movements and the psychological refractory period. Br J Psychol 38, 149157.
  • Wolpert DM, Ghahramani Z & Jordan MI (1995). An internal model for sensorimotor integration. Science 269, 18801882.
  • Wolpert DM, Miall RC, Winter JL & Stein JF (1992). Evidence for an error deadzone in compensatory tracking. J Mot Behav 24, 299308.
  • Woollacott M, Shumway-Cook A & Nashner LM (1986). Aging and postural control: changes in sensory organisation and muscular coordination. Int J Aging Hum Dev 23, 97114.