Chapter 2. Prehension

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Ref ere nces 437 Johansson, R.S., & Westling, G. (1984a). Influences of cutaneous sensory input on the motor coordination during precision manipulation. In C. von Euler, 0. Franzen, U. Lindblom & D. Ottoson (Eds.), Somatosensory Mechanisms (pp. 249-260). London: Macmillan. Johansson, R.S., & Westling, G. (1984b). Roles of glabrous skin receptors and sensorimotor memory in automatic control of precision grip when lifting rougher or more slippery objects. Experimental Brain Research, 56,550-564. Johansson, R.S., & Westling, G. (1987a). Signals in tactile afferents from the fingers eliciting adaptive motor responses during precision gnp. Experimental Brain Research, @, 141-154. Johansson, R.S., & Westling, G. (1987b). Tactile afferent input influencing motor coordination during precision grip. In A. Struppler & A. Weinl (Eds.), Clinical aspects of sensorv motor integration (pp. 3-13). Berlin: Springer-Verlag. Johansson, R.S., & Westling, G. (1988a). Programmed and triggered actions to rapid load changes during precision grip. Experimental Brain Research, a,72- 86. Johansson, R.S., & Westling, G. (1988b). Coordinated isometric muscle commands adequately and erroneously programmed for the weight during lifting tasks with precision grip. Experimental Brain Research, 71,59-71. Johansson, R.S., & Westling, G. (1990). Tactile afferent signals in the control of precision grip. In M. Jeannerod (Ed.), Attention and performance XnI (pp. 677- 736). Hillsdale, NJ: Lawrence Erlbaum Associates. Jones, L.A. (1989). The assessment of hand function: A critical review of techniques. Journal of Hand Surgery. 14A, 221-228. Jordan, M.I. (1988). Supervised learning and systems with excess degrees of freedom. COINS TR 88-27. Amherst, MA: University of Massachusetts, Department of Computer and Information Sciences. Jordan, M.I. (1989). Serial order: A parallel distributed processing approach. In J.L. McClelland, D.E. Rumelhart & the PDP research group (Eds.), Parallel distributed processing (Vol. 1, pp. 365-422). Cambridge, MA: MIT Press. Jordan, M.I. (1990). Motor learning and the degrees of freedom problem. In M. Jeannerod (Ed.), Attention and performance XIII. Hillsdale, NJ: Lawrence Erlbaum Associates. Kalaska, J.F. (1988). The representation of arm movements in postcentral and parietal cortex. Canadian Journal of Physiology and Pharmacology, 66,455- 463. Kalaska, J.F., Caminiti, R., & Georgopoulos, A.P. (1983). Cortical mechanisms related to the direction of two-dimensional arm movements. Relations in parietal area 5 and comparison with motor cortex. Experimental Brain Research, 5 1,247-260. KalGka, J.F., & Crammond, D.J. (1992) Cerebral cortical mechanisms of reaching movements Science. 255, 1517-1523.
438 THE GRASPING HAND Kamakura, N., Matsuo, M., Ishii, H., Mitsuboshi, F., & Miura, Y. (1980). Patterns of static prehension in normal hands. American Journal of Occupational Therapy, 34(7), 437-445. Kandel, E.R., & Schwartz, J.H. (1985). Principles of neural science (2nd ed.). Amsterdam: Elsevier Science Publishing. Kapandji, I.A. (1982). The physiologv of the joints. Volume One. Upper Limb (5th ed.). Edinburgh Churchill Livingstone. Kawato, M., Furukawa, K., & Suzuki, R. (1987). A hierarchical neural-network model for control and learning of voluntary movement. Biological Cvbernetics, - 57, 169-185. Kawato, M., Uno, Y., Isobe, M., & Suzuki, R. (1987, June). A hierarchical model for voluntary movement and its application to robotics. Proceedines of the 1987 IEEE 1st International Conference on Neural Networks, 573-582. Keegan, J.J., & Garrett, F.D. (1948). The segmental distribution of the cutaneous nerves in the limbs of man. Anatomical Record, 102,409-437. Keele, S.W. (1968). Movement control in skilled motor performance. Psvchology Bulletin. 70, 387-402. Keele, S.W. (1981). Behavioral analysis of motor control. In V.B. Brooks (Ed.), Handbook of phvsiolony: Sec. 1. Vol. 2. Motor contral @p. 1391-1414). Bethesda, MD: American Physiological Society. Keele, S.W., Cohen, A., & Ivry, R. (1990). Motor programs: Concepts and issues. In. M. Jeannerod (Ed.), Attention and performance XI11 (pp. 77-1 10). Hillsdale, NJ: Lawrence Erlbaum Associates. Keele, S.W., & Ells, J.G. (1972). Memory characteristics of kinesthetic information. Journal of Motor Behavior, 4,127-134. Keele, S.W., & Posner, M.I. (1968). Processing of visual feedback in rapid movements. Journal of Experimetal Psychology, a, 155-158. Kenshalo, D.R. (1979). Sensory functions of the skin. NY: Plenum Press Kenworthy, G. (1974, December). An artificial hand incorporating function and cosmesis. Biomedical En&mxinq!, 559-562. Kettner, R.E., Schwartz, A.B., & Georgopoulos, A.P. (1988). Primate motor cortex and free arm movements to visual targets in three-dimensional space. 111. Positional gradients and population coding of movement direction from various movement origins. Journal of Neuroscience, 8(8), 2938-2947. Kimura, D. (1982). Left-hemisphere control or oral and brachial movements and their relation to communication. In D.E. Broadbent & L. Weiskrantz (Eds.). The neuropsvchology of cognitive function. Philosophical Transactions of the Roval Society of London, B 298, 135-149. Klapp, S.T., & Erwin, C.I. (1976). Relation between programming time and duration of the response being programmed. Journal of Experimental Psychologv: Human Perception and Performance, 2,591-598. Klatzky, R.L., & Lederman, S.J. (1987). The intelligent hand. In G.H. Bower (Ed.), The asvcholonv of learning: and motivation (Vol. 21, pp. 121-151). San Diego: Academic Press.
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ADVANCES IN PSYCHOLOGY 104 Editors:
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viii THE GRASPING HAND Finally, all
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emphasis on Grasp emphasis on secur
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Figure 2.5 Prehensile postures cons
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Figure 2.7 Oppositions can be descr
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36 WHAT IS PREHENSION? Many posture
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40 WHAT IS PREHENSION? d Figure 2.9
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50 THE PHASES OF PREHENSION V cm/s
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174 THE PHASES OF PREHENSION grasp
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176 AREA 7 (IPS) THE PHASES OF PREH
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Table 6.6 Elliott & Connolly (1984)
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aie3 INTRINSIC - mughnesn aspect of
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306 CONSTRAINTS AND PHASES Table 8.
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z I l l I 0 Y "K ' ,------ Sensorim
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Opposition Space level Sensorimotor
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342 CONSTRAINTS AND PHASES 9.3 Futu
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344 CONSTRAINTS AND PHASES scientif
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350 Appendices Anterior (ventral):
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352 Appendices =!- / Scapula Acromi
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354 A pp e n dices Table A.l Degree
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356 Appendices Table A.l Degrees of
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358 Appendices Flexion: to bend or
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360 A pp e n dic e s Table A.2 Join
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362 A pp e It dices Elbow flex ext
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364 A pp e n dices Table A.2 Joints
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366 A pp e n dic e s Table A.3 Inne
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370 Appendices Table B.l Prehensile
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372 Appendices ...... ........... t
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374 Appendices features of the huma
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376 Appendices fingers (Kamakura et
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378 Appendices Table B.3 Postures c
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380 Appendices opposition, is Napie
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382 A pp e n dic e s relationships
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384 A pp e n dic e s C.2 Artificial
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Page 423 and 424: 404 Appendices biceps, and shoulder
Page 425 and 426: 406 Appendices Table D.l Commercial
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Page 439 and 440: 420 A pp e n dices D.3.3 Belgrade/U
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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 451 and 452: 432 THE GRASPING HAND Gordon, A.M.,
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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. (
Page 465 and 466: 446 THE GRASPING HAND Phillips, C.G
Page 467 and 468: 448 THE GRASPING HAND Rumelhart, D.
Page 469 and 470: 450 THE GRASPING HAND disconnection
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