Chapter 2. Prehension

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Ref ere n ces 431 direction by motor cortical populations. In J. Massion, J. Paillard, W. Schultz, & M. Wiesendanger (Eds.), Neural coding of motor performance (pp. 327-336). Berlin: Springer-Verlag. Georgopoulos, A.P., Kalaska, J.F., Crutcher, M.D., Caminiti, R., & Massey, J.T. (1983). The representation of movement direction in the motor cortex: Single cell and population studies. In G.M. Edelman, W.M. Cowan & W.E. Gall (Eds.), Dvnamic asnects of neocortical function (pp. 501-524). NY: John Wiley and Sons. Georgopoulos, A.P., Kettner, R.E., & Schwartz, A.B. (1988). Primate motor cortex and free arm movements to visual targets in three-dimensional space. II. Coding of the direction of movement by a neuronal population, Journal of Neuroscience, 8(8), 2928-2937. Georgopoulos, A.P., Schwartz, A.B., & Kettner, R.E. (1986). Neuronal population coding of movement direction. Science. 233,1416-1419. Gibson, J.J. (1962). Observations on active touch. Psvcholonical Review, 69, 477-49 1. Gielen, C.C.A.M., & Zuylen, E.J., van. (1986). Coordination of arm muscles during flexion and supination: Application of the tensor analysis approach. Neuroscience, 12,527-539. Glendinning, D.S., Cooper, B.Y., Vierck, C.J., & Leonard, C.M. (1992). Altered precision grasping in Stumptail Macaques after fasciculus cuneatus lesions. Somatosensorv and Motor Research, 2(1), 61-73. Glicenstein, J., & Dardour, J. C. (1981). The pulp: Anatomy and physiology. In R. Tubiana (Ed.), The hand (Vol. 1, pp. 327-336). Philadelphia, PA: W.B. Saunders. Goodale, M.A. (Ed.). (1990). Vision and action: The control of :rasping. Norwood, NJ: Ablex Publishing Corporation. Goodale, M.A., Milner, A.D., Jakobson, L.S., & Carey, D.P. (1991). A neurological dissociation between perceiving objects and grasping them. Nature, =(6305), 154-156. Goodale, M.A., Pelisson, D., & Prablanc, C. (1985). Large adjustments in visually guided reaching do not depend on vision of the hand or perception of target displacement. Nature, 320(6064), 748-750. Goodwin, A.W., & Darian-Smith, I. (Eds.). (1985). Hand function and the nwortex. NY: Springer-Verlag. Gordon, A.M., Forssberg, H., Johansson, R.S., Eliasson, A.C., & Westling, G. (1992). Development of human precision grip. 111. Integration of visual size cues during the programming of isometric forces. ExDerimental Brain Research, B, 399-403. Gordon, A.M., Forssberg, H., Johansson, R.S., and Westling, G. (1991a). The integration of haptically acquired size information in the programming of precision grip. ExDerimental Brain Research, a, 483-488.
432 THE GRASPING HAND Gordon, A.M., Forssberg, H., Johansson, R.S., and Westling, G. (1991b). Visual size cues in the programming of manipulative forces during precision grip. Exuerimental Brain Research, 83,477-48<strong>2.</strong> Granit, R. (1955). Receptors and sensory perception. New Haven: Yale University Press. Greene, P.H. (1972). Problems of organizaton of motor systems. In R. Rosen & F.M. Snell (Eds.), Prowess in theoretical biology (Vol. 2, pp. 303-338). NY: Academic Press. Greene, P.H. (1982). Why is it easy to control your arms. Journal of Motor Behavior. 14(4), 260-286. Griffiths, H.E. (1943). Treatment of the injured workman. Lancet, i, 729-733. Grossberg, S., & Kuperstein, M. (1986). Neural dynamics of adaptive sensorvmotor control: Ballistic eye movements. Amsterdam: Elsevier/North-Holland. Grossberg, S., & Kuperstein, M. (1989). Neural dvnamics of adaptive sensorymotor control: Expanded edition. NY: Pergamon. Grupen, R.A., & Henderson, T.C. (1988, Apr.). A control paradigm for general purpose manipualtion systems. Proceedings of the 1988 IEEE International Conference on Robotics and Automation, 7 10-715. Griisser, M. (1986). The multimodal structure of extrapersonal space. In A. Hein & M. Jeannerod (Eds.), Spatially oriented behavior. NY: Springer-Verlag. Guez, A., & Ahmad, Z. (1988, July). Solution to the inverse problem in robotics by neural networks. Proceedings of the 1988 IEEE International Conference on Neural Networks. 11,617-624. Haaxma, R., & Kuypers, H.G.J.M. (1974). Role of occipito-frontal corticocortical connections in visual guidance of relatively independent hand and finger movements in rhesus monkeys. Brain Research, 21(2-3), 361-366. Haggard, P., & Wing, A.M. (1991). Remote responses to perturbations in human prehension. Neuroscience Letters, 122, 103- 108. Halling, J. (1976). Introduction to tribology. London: Wykeham Publications. Halverson, H.M. (1931). An experimental study of prehension in infants by means of systematic cinema records. Genetic Psvcholoev Monoeraphs, lo, 107-284. Hanafusa, H., & Asada, H. (1982). Stable prehension by a robot hand with elastic fingers. In M. Brady, J.M. Hollerbach, T.L. Johnson, T. Lozano-P&ez, & M.T. Mason (Eds.), Robot motion: Planning and control @p. 326-336). Cambridge, MA: MIT Press. Hazelton, F.T., Smidt, G.L., Flatt, A.E., & Stephens, R.I. (1975). The influence of wrist position on the force produced by the finger flexors. Journal of Biomechanics, 8,301-306. Hebb, D.O. (1949). The organization of behavior. NY: J. Wiley. Hein, A. (1974). Prerequisite of development of visually guided reaching in the kitten. Brain Research, 7l, 259-263. Held, R., & Bauer, J.A., Jr. (1967). Visually guided reaching in infant monkeys after restricted rearing. Science, 155,718-720.
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370 Appendices Table B.l Prehensile
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Page 443 and 444: 424 THE GRASPING HAND Arbib, M.A. (
Page 445 and 446: 426 THE GRASPING HAND Bullock, D.,
Page 447 and 448: 428 THE GRASPING HAND Cutkosky, M.R
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Page 457 and 458: 438 THE GRASPING HAND Kamakura, N.,
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Page 461 and 462: 442 THE GRASPING HAND MacKenzie, C.
Page 463 and 464: 444 THE GRASPING HAND Moore, D.F. (
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482 THE GRASPING HAND and grasping,
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