Transformation of the Visual Afterimage Under Subject’s Eye and Body Movements and the Visual Field Constancy Mechanisms

Two types of positive afterimages differing in their structural complexity—called poor and rich—were used to investigate the visual field constancy mechanisms during eye and head movements. In the case of a poor afterimage, consistent with Emmert’s law, every eye and head movement caused the afterim...

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Published in	Perception (London) Vol. 44; no. 8-9; pp. 973 - 985
Main Authors	Zenkin, Gary M., Petrov, Alexander P.
Format	Journal Article
Language	English
Published	London, England SAGE Publications 01.08.2015
Subjects	Afterimage - physiology Attention - physiology Eye Movements - physiology Fixation, Ocular - physiology Head Movements - physiology Humans Photic Stimulation Psychophysics Retina - physiology Saccades - physiology Visual Fields - physiology Visual Perception - physiology eye movements head tilt visual afterimage spatial constancy
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Abstract	Two types of positive afterimages differing in their structural complexity—called poor and rich—were used to investigate the visual field constancy mechanisms during eye and head movements. In the case of a poor afterimage, consistent with Emmert’s law, every eye and head movement caused the afterimage to appear moving (in exactly the same way), unlike a real object, which appeared to remain stationary during those same eye and head movements (although its retinal image moved opposite to the eye movement). However, in the case of a rich afterimage, the afterimage appeared stationary during eye movements, while a small stationary test light in the real space appeared to move, violating Emmert’s law. It is suggested that, in these two cases, the different apparent transformations reflected functioning of different constancy mechanisms. Both mechanisms implement projection of retinal images upon a hypothetical constant visual screen in strict accordance with the subject’s movements but in two different ways. The experiments have indicated that, during binocular fusion, the visual afferent system is able to use information from the structural organization of the visual flow to implement the visual field stability and to calculate gaze direction independently of proprioceptive signals.
AbstractList	Two types of positive afterimages differing in their structural complexity--called poor and rich--were used to investigate the visual field constancy mechanisms during eye and head movements. In the case of a poor afterimage, consistent with Emmert's law, every eye and head movement caused the afterimage to appear moving (in exactly the same way), unlike a real object, which appeared to remain stationary during those same eye and head movements (although its retinal image moved opposite to the eye movement). However, in the case of a rich afterimage, the afterimage appeared stationary during eye movements, while a small stationary test light in the real space appeared to move, violating Emmert's law. It is suggested that, in these two cases, the different apparent transformations reflected functioning of different constancy mechanisms. Both mechanisms implement projection of retinal images upon a hypothetical constant visual screen in strict accordance with the subject's movements but in two different ways. The experiments have indicated that, during binocular fusion, the visual afferent system is able to use information from the structural organization of the visual flow to implement the visual field stability and to calculate gaze direction independently of proprioceptive signals.Two types of positive afterimages differing in their structural complexity--called poor and rich--were used to investigate the visual field constancy mechanisms during eye and head movements. In the case of a poor afterimage, consistent with Emmert's law, every eye and head movement caused the afterimage to appear moving (in exactly the same way), unlike a real object, which appeared to remain stationary during those same eye and head movements (although its retinal image moved opposite to the eye movement). However, in the case of a rich afterimage, the afterimage appeared stationary during eye movements, while a small stationary test light in the real space appeared to move, violating Emmert's law. It is suggested that, in these two cases, the different apparent transformations reflected functioning of different constancy mechanisms. Both mechanisms implement projection of retinal images upon a hypothetical constant visual screen in strict accordance with the subject's movements but in two different ways. The experiments have indicated that, during binocular fusion, the visual afferent system is able to use information from the structural organization of the visual flow to implement the visual field stability and to calculate gaze direction independently of proprioceptive signals. Two types of positive afterimages differing in their structural complexity--called poor and rich--were used to investigate the visual field constancy mechanisms during eye and head movements. In the case of a poor afterimage, consistent with Emmert's law, every eye and head movement caused the afterimage to appear moving (in exactly the same way), unlike a real object, which appeared to remain stationary during those same eye and head movements (although its retinal image moved opposite to the eye movement). However, in the case of a rich afterimage, the afterimage appeared stationary during eye movements, while a small stationary test light in the real space appeared to move, violating Emmert's law. It is suggested that, in these two cases, the different apparent transformations reflected functioning of different constancy mechanisms. Both mechanisms implement projection of retinal images upon a hypothetical constant visual screen in strict accordance with the subject's movements but in two different ways. The experiments have indicated that, during binocular fusion, the visual afferent system is able to use information from the structural organization of the visual flow to implement the visual field stability and to calculate gaze direction independently of proprioceptive signals.
Author	Zenkin, Gary M. Petrov, Alexander P.
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References	Boring 1940; 53 Lubimoff 1858; 47 Pigarev, Rodionova 1986; 18 Edwards 1953; 66 Von Holst 1954; 2 Wiersma, Yamaguchi 1967; 47 Zenkin, Petrov, Pigarev 1974; 19 Sperry 1950; 43 Taylor 1941; 29 Horn, Stechler, Hill 1972; 15 Petrov, Zenkin 1973; 13 Petrov, Zenkin 1976; 2 Harmon, Julesz 1973; 180 Rozhkova, Polischuk 1976; 21 Gentilucci, Pigarev, Scandolara, Rizzolatti 1983; 50 Lubimoff N. (bibr7-0301006615594937) 1858; 47 bibr9-0301006615594937 Sperry R. W. J. (bibr13-0301006615594937) 1950; 43 Gentilucci M. (bibr4-0301006615594937) 1983; 50 Petrov A. P. (bibr10-0301006615594937) 1976; 2 bibr2-0301006615594937 bibr6-0301006615594937 Pigarev I. N. (bibr11-0301006615594937) 1986; 18 bibr17-0301006615594937 bibr15-0301006615594937 Zenkin G. M. (bibr18-0301006615594937) 1974; 19 bibr8-0301006615594937 Rozhkova G. I. (bibr12-0301006615594937) 1976; 21 bibr14-0301006615594937 bibr3-0301006615594937 Wiersma C. A. G. (bibr16-0301006615594937) 1967; 47 Balonov L. Ya. (bibr1-0301006615594937) 1971 bibr5-0301006615594937
References_xml	– volume: 50 start-page: 2 year: 1983 end-page: 3, 464–468 article-title: Visual responses independent of eye position in postarcuate cortex (area 6) of the monkey publication-title: Experimental Brain Research – volume: 47 start-page: 3, 409 year: 1967 end-page: 431 article-title: Integration of visual stimuli by the crayfish central nervous system publication-title: The Journal of Experimental Biology – volume: 15 start-page: 113 issue: 2 year: 1972 end-page: 132 article-title: Receptive fields of units in the visual cortex of the cat in the presence and absence of bodily tilt publication-title: Experimental Brain Research – volume: 2 start-page: 6, 932 year: 1976 end-page: 939 article-title: The retinal images as sources of information about the eye positions in the orbits and binocular mechanisms of the visual space formation publication-title: Human Physiology – volume: 19 start-page: 5, 950 year: 1974 end-page: 951 article-title: On the constant representation of the visual field in the human occipital cortex under head tilting to the shoulder publication-title: Biophysics – volume: 2 start-page: 89 issue: 3 year: 1954 end-page: 94 article-title: Relation between the central nervous system and the peripheral organs publication-title: British Journal of Animal Behavior – volume: 47 start-page: 24 year: 1858 end-page: 27 article-title: Recherches sur la grandeur apparent des objects publication-title: Comptes Rendus de l’Académie des Sciences Paris – volume: 18 start-page: 6, 800 year: 1986 end-page: 805 article-title: Neurons with the receptive fields independent on the position of the eye in the caudal region of the ventral wall of the cruciate sulcus of the cerebral cortex of the cat publication-title: Neurophysiology – volume: 43 start-page: 6, 482 year: 1950 end-page: 489 article-title: Neural basis of the spontaneous optokinetic response produced by visual inversion publication-title: Journal of Physiological Psychology – volume: 21 start-page: 1, 144 year: 1976 end-page: 149 article-title: A constant mapping of source position in space in the cricket’s cercal system publication-title: Biophysics – volume: 66 start-page: 3, 449 year: 1953 end-page: 455 article-title: Apparent size of afterimages under conditions of reduction publication-title: American Journal of Psychology – volume: 180 start-page: 1194 year: 1973 end-page: 1197 article-title: Masking in visual recognition: Effects of two-dimensional filtered noise publication-title: Science – volume: 13 start-page: 12, 2465 year: 1973 end-page: 2477 article-title: Torsional eye movements and constancy of the visual field publication-title: Vision Research – volume: 29 start-page: 1, 75 year: 1941 end-page: 80 article-title: Change in size of the afterimage induced in total darkness publication-title: Journal of Experimental Psychology – volume: 53 start-page: 2, 293 year: 1940 end-page: 295 article-title: Size constancy and Emmert’s law publication-title: The American Journal of Psychology – ident: bibr2-0301006615594937 doi: 10.2307/1417427 – volume: 2 start-page: 6, 932 year: 1976 ident: bibr10-0301006615594937 publication-title: Human Physiology – ident: bibr14-0301006615594937 doi: 10.1037/h0058125 – volume: 18 start-page: 6, 800 year: 1986 ident: bibr11-0301006615594937 publication-title: Neurophysiology – ident: bibr8-0301006615594937 doi: 10.1007/978-3-642-65352-0_5 – volume: 47 start-page: 24 year: 1858 ident: bibr7-0301006615594937 publication-title: Comptes Rendus de l’Académie des Sciences Paris – ident: bibr5-0301006615594937 doi: 10.1126/science.180.4091.1194 – ident: bibr9-0301006615594937 doi: 10.1016/0042-6989(73)90244-7 – ident: bibr17-0301006615594937 doi: 10.1007/978-1-4899-5379-7 – ident: bibr6-0301006615594937 doi: 10.1007/BF00235577 – volume: 47 start-page: 3, 409 year: 1967 ident: bibr16-0301006615594937 publication-title: The Journal of Experimental Biology – ident: bibr15-0301006615594937 doi: 10.1016/S0950-5601(54)80044-X – volume: 21 start-page: 1, 144 year: 1976 ident: bibr12-0301006615594937 publication-title: Biophysics – volume: 19 start-page: 5, 950 year: 1974 ident: bibr18-0301006615594937 publication-title: Biophysics – volume-title: Afterimages year: 1971 ident: bibr1-0301006615594937 – ident: bibr3-0301006615594937 doi: 10.2307/1418239 – volume: 50 start-page: 2 year: 1983 ident: bibr4-0301006615594937 publication-title: Experimental Brain Research – volume: 43 start-page: 6, 482 year: 1950 ident: bibr13-0301006615594937 publication-title: Journal of Physiological Psychology
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SubjectTerms	Afterimage - physiology Attention - physiology Eye Movements - physiology Fixation, Ocular - physiology Head Movements - physiology Humans Photic Stimulation Psychophysics Retina - physiology Saccades - physiology Visual Fields - physiology Visual Perception - physiology
Title	Transformation of the Visual Afterimage Under Subject’s Eye and Body Movements and the Visual Field Constancy Mechanisms
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