Abstract
Displacement of the retinal image at the back of the eye may be produced either by eye movements, which the observer uses to redirect his gaze within the visual field, or by displacements of the visual field itself outside of the eye. Nevertheless while displacements of the visual field are normally seen to be displacements in the environment, stationary visual fields normally continue to appear stationary in the presence of eye movements. The main concern of this chapter is with the basis for this difference in visual localization.
The writing of this chapter was supported in part by contract N 62269 80C 0296 with the Naval Air Development Center (NADC) and in part by PHS research grants EY 00375 and EY 03198 from the National Eye Institute, NIH.
This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
Preview
Unable to display preview. Download preview PDF.
Similar content being viewed by others
References
Allik, J,, Rauk, M. and Luuk, A., Control and sense of eye movement behind closed eyelids. Perception, 1981, 10, 39–51.
Balliet, R. and Nakayama, K., Training of voluntary torsion. Investigative Qphthalmologyy and Visual Science, 1978a, 17, 303–314.
Balliet, R. and Nakayama, K., Egocentric orientation is influenced by trained voluntary cyclorotary eye movements. Nature, 1978b, 275, 214–216.
Becker, W., Do correction saccades depend exclusively on retinal feedback? A note on the possible role of non-retinal feedback. Vision Research, 1976, 16, 425–427.
Becker, W. and Fuchs, A.C., Further properties of the human saccadic system: eye movements and correction saccades with without visual fixation points. Vision Research, 1969, 9, 1247–1257.
Becker, W. and Klein, H.M., Accuracy of saccadic eye movements and maintenance of eccentric eye position in the dark. Vision Research, 1973, 13, 1021–1034.
Beeler, J.W., Visual threshold changes resulting from spontaneous saccadic eye movements. Vision Research, 1967, 7, 769–775.
Bertelson, P.B. and Radeau, M, Ventriloquism, sensory interaction, and response bias: Remarks on the paper by Choe, Welch, Filford and Juola. Perception and Psychophysics, 1976, 19, 531–535.
Bischof, N. and Kramer, E., Untersuchungen und Ueberlegungen zur Richtungswahrnehmung bei willkürlichen sakkadisehen Augenbewegungen. Psychol. Forsch., 1968, 32, 185–218.
Bowen, R.W., Pola, J. and Matin, L., Visual persistence: effects of flash luminance, duration and energy. Vision Res earch, 1974, 14, 295–303.
Bridgeman, B., Hendry, D. and Stark, L., Failure to detect displacement of the visual world during saccadic eye movements. Vision Research, 1975, 15, 719–722.
Bridgeman, B. and Stark, L., Omnidirectional increase in threshold for image shifts during saccadic eye movements. Perception and Psychophysics, 1979, _25, 241–243.
Brindley, G.S., Goodwin, G.M., Kulikowski, J.J. and Leighton, D., Stability of vision with a paralysed eye. Journal of Pbysiology, 1976, 258, 65p–66 p.
Brindley, G.S. and Merton, P.A., The absence of position sense in the human eye. Journal of Physiology, 1960, 153, 127–130.
Brooks, B.A. and Fuchs, A.F., Influence of stimulus parameters on visual sensitivity during saccadic eye movements. Vision Research, 1975, 15, 1389–1398.
Brooks, B.A., Impelman, D.M. and Lum, J.T., Influence of background luminance on visual sensitivity during saccadic eye movements. Experimental Brain Research, 1980, 40, 322–329.
Choe, C.S., Welch, R.B., Gilford, R.M. and Juola, J.F., The “ventriloquist effect”: Visual dominance or response bias? Perception and Psychophysics, 1975, 18, 55–60.
Cohen, M.M., Elevator Illusion: Influenceof Otolith Organ Activity and Neck Proprioception. Perception and Psychophysics, 1973, 14, 401–406.
Cornsweet, T.N., Determination of the stimuli for involuntary drifts and saccadic eye movements. Journal of the Optical Society of America, 1956, 46, 987–993.
Dell’Osso, L.F., Troost, B.T. and Daroff, R.B., Macro square wave jerks. Neurology, 1975, 25, 975–979.
Ditchburn, R.W., Eye-movements in relation to retinal action. Optica Acta, 1955, 1, 171–176.
Ditchburn, R.W., Eye Movements and Visual Perception. Clarendon Press, Oxford, 1973.
Efron, R., The relationship between the duration of a stimulus and the duration of a perception. Neuropsychologia, 1970a, 8, 37–55.
Efron, R., The minimum duration of a perception. Neuropsychologia, 1970b, 8, 56–63.
Evarts, E.V., Feedback and corollary discharge: A merging of the concepts. Neurosciences Research Progress Bulletin, 1971, 9, 86–112.
Fender, D.H. and Nye, P.W., The effects of retinal image motion in a simple pattern recognition task. Kybernetik, 1962, 1, 192–199.
Festinger, L. and Holtzman, J., Retinal image smear as a source of information about magnitude of eye movement. Journal Experimental Psychology: Human Perception and Performance, 1978, 4, 573–585.
Findlay, J.M., Direction perception and human fixation eye movements. Vision Research, 1974, 14, 703–711.
Fiorentini, A. and Ercoles, A.M., Involuntary eye movements during attempted monocular fixation. Atti. Fond. Glorio Ronchi, 1966, 21, 199–217.
Fiorentini, A. and Ercoles, A.M., Visual direction of a point source in the dark. Atti. Fond. G. Ronchi, 1968, 23, 405–428.
Foley, J.M., Primary Distance Perception. In: Handbook of Sensory Physiology. Vol. VIII, Ch. 6, pp. 181–210. R. Held, H.W. Leibowitz and H.L. Teuber (Eds.), Springer-Verlag, Berlin.
Foley, J.M., Successive stero and vernier discrimination as a function of dark interval. Vision Research, 1976, 16, 1269–1273.
Goodwin, G.M., McCloskey, D.I. and Matthews, P.B.C., The contribution of muscle afferents to kinaesthesia shown by vibration induced illusions of movement and by the effects of paralyzing joint afferents. Brain, 1972, 95, 705–748.
Green, D.M., An Introduction to Hearing. Erlbaum Assoc., New Jersey, 1976.
Greenhouse, D.S., Saccadic suppression of flash detection: the uncertainty theory vs. alternative theories. Ph.D. Dissertation, University of California, Berkeley, CA, 1968.
Greenhouse, D.S. and Cohn, T.E., Saccadic suppression: uncertainty vs. alternative theories. April Supp., Investigative Qphthal mology and Visual Science, 1980, 19, 164.
Greenhouse, D.S., Cohn, T.E. and Stark, L., Saccadic suppression may be due entirely to uncertainty of the frame of reference. April Supp., Investigative Ophthalmology and Visual Science, 1977, 17, 106.
Hallett, P.E., Saccades to flashes. In: Eye Movements and Psychological Processes. R.A. Monty and J.W. Senders (Eds.). Wiley, New York, 1976, pp. 255–262.
Hallett, P.E., Primary and secondary saccades to goals defined by instructions. Vision Research, 1978, 18, 1279–1296.
Hallett, P.E. and Lightstone, A.D., Saccadic eye movements towards stimuli triggered by prior saccades. Vision Research, 1976a, 16, 99–106.
Hallett, P.E. and Lightstone, A.D., Saccadic eye movements to flashed targets. Vision Research, 1976b, 16, 107–114.
Hansen, R.M., Spatial localization during pursuit eye movements. Vision Research, 1979, 1213–1221.
Hansen, R.M. and Skavenski, A.A., Accuracy of eye position information for motor control. Vision Research, 1 977, 17, 919–926.
Hay, J.C. and Pick, H.L., Jr., Visual and proprioceptive adaptation to optical displacement of the visual stimulus. Journal of Experimental Psychology, 1966, 71, 150–158.
Helmholtz, H. von, Handbuch der Physiologische Optik. Leipzig Voss 1866. English translation from Edit. 3, 1925. Southal, J.P.C. (Ed.): A Treatise on Physiological Optics, 1963, Vol. 3, New York: Dover.
Henson, D.B., Corrective saccades: effects of altering visual feedback. Vision Research, 1978, 18, 63–67.
Heywood, S. and Churcher, J., Direction-specific and position-specific effects upon detection of displacements during saccadic eye movements. Vision Research, 1981, 21, 255–261.
Holly, F., Saccadic presentation of a moving target. Vision Research, 1975, 15, 331–335.
Hoist, E. von. Relation between the central nervous system and the peripheral organs. British Journal of Animal Behavior, 1954, 2, 89–94.
Hoist, E. von and Mittelstaedt, H., Das Reafferenzprinzip. Naturwissenschaften, 1950, 37, 464–476.
Irvine, S. and Ludvigh, E., Is ocular proprioceptive sense concerned in vision? Arch. Ophthal., 1936, 15, 1037–1049.
Jack, C.E. and Thurlow, W.R., Effects of degree of visual association and angle of displacement on the “ventriloquism” effect. Perceptual and Motor Skills, 1973, 37, 967–979.
Jackson, C.V., Visual factors in auditory localization. Quarterly Journal of Experimental Psychology, 1953, 5, 52–65.
James, W., The Principles of Psychology. 1890, Vol. II. Holt. Reprinted, New York: Dover 1950.
Jones, B. and Kabanoff, B., Eye movements in auditory space percep tion. Perception and Psychophysics, 1975, 17, 241–245.
Kalil, R.E. and Freedman, S.J., Persistence of ocular rotation following compensation for displaced vision. Perceptual and Motor Skills, 1966, 22, 135–139.
Keesey, U.T., Effects of involuntary eye movements on visual acuity. Journal of the Optical Society of America, 1960, 50, 769–774.
Kinchla, R.A., A Psychophysical Model of Visual-Movement Perception. In: Eye Movements and Psychological Processes. R.A. Monty and J.W. Senders (Eds.), L. Erlbaum Associates, 1976, pp. 263–275.
Kinchla, R.A. and Allan, L.G., A theory of visual movement perception. Psychological Review, 1969, 76, 537–558.
Kinchla, R.A. and Smyzer, F., A diffusion model of perceptual memory. Perception and Psychophysics, 1967, 2, 219–229.
Kornheiser, A.S., Adaptation to laterally displaced vision: A review. Psychological Bulletin, 1976, 83, 783–816.
Kornmuller, A.E., Eine experimentelle Anesthesie der auberen Augenmuskeln am Menschen und ihre Auswirkungen. Journal für Psychologie und Neurologie, 1930, 41, 354–366.
Krauskopf, J., Graf, V. and Gaarder, K., Lack of inhibition during involuntary saccades. American Journal of Psychology, 1966, 79, 73–81.
Lamansky, S., Bestimmung der Winkelgeschwindigkeit der Blickbewegung respective Augenbewegung. Arch. Ges. Physiol., 1869, 2, 418–422.
Latour, P., Visual threshold during eye movements. Vision Research, 1962, 2, 261–262.
Ludvigh, E., Possible role of proprioception in the extraocular muscles. Archs. Ophthal., 1952, 48, 436–441.
Mack, A., Fendrich, R. and Pleune, J., Adaptation to an altered relation between retinal image displacements and saccadic eye movements. Vision Research, 1978, 18, 1321–1328.
MacKay, D.M., Theoretical models of space perception. Chapter V, pp. 83–103, In: Aspects of the Theory of Artificial Intelligence. C.A. Muses (Ed.), New York: Plenum Press, 1962, 83–104.
MacKay, D.M., Elevation of the visual threshold by displacement of retinal image. Nature, London, 1970, 225, 90–92.
MacKay, D.M., Voluntary Eye Movements as Questions. Karber, Basel, Bibl. Ophthal., 1972, 82, 369–376.
MacKay, D.M., Visual stability and voluntary eye movements. In: Handbook of Sensory Physiology. R. Jung (Ed.). Berlin: Springer-Verlag, 1973, 307–331.
Mateeff, S., Saccadic eye movements and localization of visual stimuli. Perception and Psychophysics, 1978, 24, 215–224.
Mateeff, S., Yakimoff, N. and Mitrani, L., Some characteristics of the visual masking by moving contours. Vision Res earch, 1976, 16, 489–492.
Matin, E., Saccadic suppression: a review and analysis. Psychological Bulletin, 1974, 81, 899–917.
Matin, E., Clymer, B. and Matin, L., Metacontrast and saccadic suppression. Science, 1972, 178, 179–182.
Matin, E., Matin, L., Pola, J. and Kowal, K., The intermittent light illusion and constancy of visual direction during voluntary saccades. Paper presented at Psychonomic Society Meeting, 1969, St. Louis.
Matin, L., Eye movements and perceived visual direction. Ch. 13, pp. 331–380. In: Handbook of Sensory Physiology. D. Jameson and L. Hurvich (Eds.), 1972, Vol. VII/4, Springer-Verlag, Heidelberg.
Matin, L., A Possible Hybrid Mechanism for Modification of Visual Direction Associated with Eye Movements-The Paralyzed Eye Experiment Reconsidered. Perception, 1976a, 233–239.
Matin, L., Saccades and the Extraretinal Signal for Visual Direction. In: Eye Movements and Psychological Processes. R. Monty and J. Senders (Eds.), 1976b, Ch. IV.1, Erlbaum Assoc., New York.
Matin, L., Suppression of the use of extraretinal eye position information (EEPI) for visual localization is normal in normally illuminated visual fields. April Supp. to Investigative Ophthalmology and Visual Science, 1981, 20, 55.
Matin, L. and Bowen, R.W., Measuring the duration of perception. Perception and Psychophysics, 1976, 20, 66–76.
Matin, L. and Kibler, G., Acuity of Visual Perception of Direction in the Dark for Various Positions of the Eye in the Orbit. Perceptual and Motor Skills, 1966, 22, 407–420.
Matin, L. and Matin, E., Visual perception of direction and voluntary saccadic eye movements. In: Cerebral Control of Eye Movements and Motion Perception. J. Dichgans and E. Bizzi (Eds.), 1972, 358–368, Basel: Karger.
Matin, L., Matin, E. and Pearce, D.G., Visual perception of direction when voluntary saccades occur: I. Relation of visual direction of a fixation target extinguished before a saccade to a flash presented during the saccade. Perception and Psychophysics, 1969, 5, 65–80.
Matin, L., Matin, E. and Pearce, D.G., Eye movements in the Dark during the Attempts to Maintain a prior fixation Position. Vision Research, 1970, 10, 837–857.
Matin, L., Matin, E. and Pola, J., Visual perception of direction when voluntary saccades occur: II. Relation of visual direction of a fixation target extinguished before a saccade to a subsequent test flash presented before the saccade. Perception and Psychophysics, 1970, 8, 9–14.
Matin, L. and Pearce, D.G., Visual perception of direction for stimuli flashed during voluntary saccadic eye movement. Science, 1965, 148, 1485–1488.
Matin, L., Matin, E., Pola, J. and Bowen, R., Relative visual direction of two flashes presented at different times or intensities during a voluntary saccade-retinal constraints in the operation of extra-retinal signals. Presented at Eastern Psychological Association Convention.
Matin, L., Pearce, D.G., Matin, E. and Kibler, G., Visual perception of Direction: Roles of Local Sign, Eye Movements and Ocular Proprioception. Vision Research, 1966, 6, 453–469.
Matin, L., Picoult, E., Stevens, J.K., Edwards, M.W., Jr., Young, D. and MacArthur, R., Visual Context Dependent Mislocalizations Under Curare-Induced Partial Paralysis of the Extraocular Muscles. April Supp. to Investigative Ophthalmology and Visual Science, 1980, 19, 81.
Matin, L., Picoult, E., Stevens, J.K., Edwards, M.W., Jr., Young, D. and MacArthur, R., Visual Context Dependent Mislocalizations Under Curare-Induced Partial Paralysis of the Extraocular Muscles. April Supp. to Investigative Ophthalmology and Visual Science, 1980, 19, 81.
Matin, L., Pola, J. and Matin, E., Changes of Visual Direction with Voluntary Saccadic Eye Movements: Influence of Visual Persistence. Transactions of the American Academy of Optometry, 1972, W, 897.
Matin, L., Pola, J., Matin, E. and Picoult, E., Vernier discrimination with sequentially-flashed lines: roles of eye movements, retinal offsets and short-term memory. Vision Research, 1981a, 647–656.
Matin, L., Stevens, J.K. and Picoult, E., Perceptual Consequences of Experimental Extraocular Muscle Paralysis. Chapter in: Spatially Oriented Behavior. A. Hein and M. Jeannerod ( Eds. ), 1982, Springer-Verlag.
McLaughlin, S.C., Parametric adjustment in saccadic eye movements. Perception and Psychophysics, 1967, 2, 359–362.
McLaughlin, S.C. and Webster, R.G., Changes in straight-ahead eye position during adaptation to wedge prisms. Perception and Psychophysics, 1967, 2, 36–44.
Merton, P., The accuracy of directing the eyes and the hand in the dark. Journal of Physiology, 1961, 156, 555–577.
Merton, P., Human position sense and sense of effort. Symposium of the Society for Experimental Biology, 1964, 18, 387–400.
Miller, J.M., Information used by the perceptual and oculomotor systems regarding the amplitude of saccadic and pursuit eye movements. Vision Research, 1980, 10, 59–68.
Mills, A.W., On the minimum audible angle. Journal of the Acoustical Society of America, 1958, 30, 237–246.
Mills, A.W., Lateralization of high–frequency tones. Journal of the Acoustical Society of America, 1960, 32, 132–134.
Mitrani, L., Mateeff, S. and Yakimoff, N., Smearing of the retinal image during voluntary saccadic movements. Vision Research, 1970a, 10, 405–409.
Mitrani, L., Mateeff, S. and Yakimoff, N., Temporal and spatial characteristics of visual suppression during voluntary saccadic eye movement. Vision Research, 1970b, 10, 417–422.
Mitrani, L., Mateeff, S. and Yakimoff, N., Saccadic suppression in the presence of structured background. Vision Research, 1973, 13, 517–521.
Mitrani, L., Yakimoff, N. and Mateeff, S., Dependence of visual suppression on the angular size of voluntary saccadic eye movements. Vision Research, 1970, 10, 411–415.
Monahan, J., Extraretinal feedback and visual localization. Perception and Psychophysics, 1970, 12, 349–353.
Nachmias, J., Determiners of drift of the eye during monocular fixation. Journal of the Optical Society of America, 1961, 51, 761–766.
Nakayama, K. and Balliet, R., Listing’s law, eye position sense, and perception of the vertical. Vision Research, 1977, 17, 453–457.
Ogle, K.N., Binocular Vision. Hafner Publishing Company, New York, 1950.
Pearce, D. and Matin, L., Variation of the magnitude of the horizontal-vertical illusion with retinal eccentricity. Perception and Psychophysics, 1969, 6, 241–243.
Pearce, D. and Porter, E., Changes in visual sensitivity associated with voluntary saccades. Psychonomic Science, 1970, 19, 225–227.
Picoult, E., MacArthur, R., Young, D., Edwards, M.W., Jr., Stevens, J.K. and Matin, L., Relation Between Visual and Auditory Maps of Space in Room Illumination and in Darkness. Supplement to Investigative Qphthalmology and Visual Science, 1980, 19, 164.
Platt, B.B. and Warren, D.H., Auditory localization: The importance of eye movements and a textured visual environment. Perception and Psychophysics, 1972, 12, 245–248.
Pola, J., The Relation of Visual Direction to Eye Position During and Following a Voluntary Saccade. Ph.D. Dissertation, Columbia University, 1972.
Pola, J., Voluntary saccades, eye position, and perceived visual direction. In: Eye Movements and Psychological Processes. R.A. Monty and J.W. Senders (Eds.), Wiley, New York, 1976.
Rattle, J.D. and Foley-Fisher, J.A., A relationship between vernier acuity and intersaccadic interval. Optica Acta, 1968, 15, 617–620.
Riggs, L.A., Merton, P.A. and Morton, H.B., Suppression of visual phosphenes during saccadic eye movements. Vision Research, 1974, 14, 997–1011.
Roland, P.E., Sensory feedback to the cerebral cortex during voluntary movement in man. The Behavioral and Brain Sciences, 1978, 1, 129–147.
Salapatek, P., Pattern perception in early infancy. Chapter 3 in: Infant Perception from Sensation to Cognition. L.B. Cohen and P. Salapatek (Eds.), Academic Press, New York, 1975.
Schlodtman, W., Ein Beitrag zur Lehre von der optischen Lokalisation bei Blindgeborenen. Arch. f. Ophth., 1902, 54, 256–267.
Sedgwick, H.A. and Festinger, L., Eye movements, efference and visual perception. In: Eye Movements and Psychological Processes. R.A. Monty and J.W. Senders (Eds.), 1976, pp. 221–230, Erlbaum Assoc., New Jersey.
Shebilske, W.L., Extraretinal information in corrective saccades and inflow vs. outflow theories of visual direction constancy. Vision Research, 1976, 16, 621–628.
Shebilske, W.L., Visuomotor coordination in visual direction and position constancies, in: Stability and Constancy in Visual Perception. W. Epstein (Ed.). 1977, pp. 23–69, Wiley, New York.
Shebilske, W.L., Sensory feedback during eye movements reconsidered. The Behavioral and Brain Sciences, 1978, 1, 160–161.
Shelton, B.R. and Searle, C.L., The influence of vision on the absolute identification of sound-source position. Perception and Psychophysics, 1980, 28, 589–596.
Sherrington, C.S., Further note on the sensory nerves of the eye muscles. Proceedings of the Royal Society, 1898, 64, 120–121.
Sherrington, C.S., Observations on the sensual role of the proprioceptive nerve supply of the extrinsic ocular muscles. Brain, 1918, 41, 332–343.
Siebeck, R., Wahrnehmungs Störung und S tor ungs wahr nehmung bei Augenmus kell ahmungen. Von Graufes Archiv für Ophthalmologie, 1954, 155, 26–34.
Siebeck, R. and Frey, R., Die Wirkungen muskeleschlaffender Mittel auf die Augenmuskeln. Anaesthesist, 1953, 138–141.
Skavenski, A.A., Extraretinal correction and memory for target position. Vision Research, 1971, 11, 743–746.
Skavenski, A.A., Inflow as a source of extraretinal eye position information. Vision Research, 1972, 12, 221–229.
Skavenski, A.A., The nature and role of extraretinal eye-position information in visual localization. Chapter IV.7 in: Eye Movements and Psychological Processes. R.A. Monty and J.W. Senders (Eds.), 1976, Erlabaum Assoc., New Jersey.
Skavenski, A.A., and Steinman, R.M., Control of eye position in the dark. Vision Research, 1970, 10, 193–203.
Skavenski, A.A., Haddad, G. and Steinman, R.M., The extraretinal signal for the visual perception of direction. Perception and Psychophysics, 1972, 11, 287–290.
Stark, L., Kong, R., Schwartz, S., Hendry, D. and Bridgeman, B., Saccadic suppression of image displacement. Vision Research, 1976, 1185–1187.
Stoper, A., Apparent motion of stimuli presented stroboscopically during pursuit movement of the eye. Perception and Psychophysics, 1973, 201–211.
Steinbach, M.J., Pursuing the perceptual rather than the retinal stimulus. Vision Ressearch, 1976, 16, 1371–1376.
Stevens, J.K., Emerson, R.C., Gerstein, G.L., Kallos, T., Neufeld, G.R., Nichols, C.W. and Rosenquist, A.C., Paralysis of the awake human: Visual perceptions. Vision Research, 1976, 16, 93–98.
Stevens, J.K., The corollary discharge: is it a sense of position or a sense of space? The Behavioral and Brain Sciences, 1978, 1, 163–165.
Taylor, J.G., The Behavioral Basis of Perception. Yale University Press, 1962, New Haven.
Thurlow, W.R. and Jack, C.E., Certain determinants of the “ventriloquism effect”. Perceptual and Motor Skills, 1973, 36, 1171–1184.
Uttal, W. and Smith, P., Recognition of alphabetic characters during voluntary eye movements. Perception and Psychophysics, 1968, 3, 257–264.
Volkmann, F., Vision during voluntary saccadic eye movements. Journal of the Optical Society of America, 1962, _52, 571–578.
Volkmann, F., Schick, A.M.L. and Riggs, L.A., Time course of visual inhibition during voluntary saccades. Journal of the Optical Society of America, 1968, 58, 562–569.
Wallach, H. and Lewis, C., The effect of abnormal displacement of the retinal image during eye movements. Perception and Psychophysics, 1966, 1, 25–29.
Ward, F., Pursuit eye movements and visual localization. In: Eye Movements and Psychological Processes. R.A. Monty and J.W. Senders (Eds.). ErIbaum Assoc., New Jersey, 1976, pp. 289–297.
Weber, R.B. and Daroff, R.B., The metrics of horizontal saccadic eye movements in normal humans. Vision Research, 1971, 11, 921–928.
Weber, R.B. and Daroff, R.B., Corrective movements following refixation saccades: type and control system analysis. Vision Research, 1972, 12, 467–475.
Welch, R.B., Perceptual modification: Adapting to altered sensory environments. Academic Press, 1978, New York.
Wertheim, A.H., On the relativity of perceived motion. Acta Psychologica, 1981, 48, (Special Issue on the Perception of Motion) 97–110.
Wertheimer, M., Psychomotor coordination of auditory and visual space at birth. Science, 1961, 134, 1692.
Whipple, W.R. and Wallach, H., Direction-specific motion thresholds for abnormal image shifts during saccadic eye movement. Perception and Psychophysics, 1978, 24, 349–355.
Witkin, H.A., Perception of body position and of the position of the visual field. Psychological Monographs, 1949, 63, no. 7.
Witkin, H.A. and Asch, S.E., Studies in space orientation. IV. Further experiments on perception of the upright with displaced visual fields. Journal of Experimental Psychology, 1948, 38, 762–782.
Witkin, H.A., Wapner, S. and Levinthal, T., Sound Localization with conflicting visual and auditory cues. Journal of Experimental Psychology, 1952, 43, 58–67.
Wolf, W., Hauske, G. and Lupp, U., How presaccadic gratings modify postsaccadic modulation transfer function. Vision Research, 1978, 18, 1173–1180.
Yakimoff, N., Mitrani, L. and Mateeff, S., Saccadic suppression as visual masking effect. Agressologie, 1974, 15, 387–394.
Zahn, J.R., Abel, L.A. and Dell’Osso, L.F., Audio-ocular response characteristics. Sensory Processes, 1978, 2, 32–37.
Zuber, B. and Stark, L., Saccadic suppression: Elevation of visual threshold associated with saccadic eye movements. Experimental Neurology, 1966, 16, 65–79.
Author information
Authors and Affiliations
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 1982 Plenum Press, New York
About this chapter
Cite this chapter
Matin, L. (1982). Visual Localization and Eye Movements. In: Wertheim, A.H., Wagenaar, W.A., Leibowitz, H.W. (eds) Tutorials on Motion Perception. NATO Conference Series, vol 20. Springer, Boston, MA. https://doi.org/10.1007/978-1-4613-3569-6_5
Download citation
DOI: https://doi.org/10.1007/978-1-4613-3569-6_5
Publisher Name: Springer, Boston, MA
Print ISBN: 978-1-4613-3571-9
Online ISBN: 978-1-4613-3569-6
eBook Packages: Springer Book Archive