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The Extraretinal Signal from the Pursuit-eye-movement System: Its Role in the Perceptual and the Egocentric Localization Systems

Overview
Journal Percept Psychophys
Specialties Psychiatry
Psychology
Date 1990 Nov 1
PMID 2247334
Citations 13
Authors
H Honda
Affiliations
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Abstract

The accuracy of perceptual judgment of the distance of a moving target tracked at various velocities by pursuit eye movements was examined in relation to the amount of two types of eye movement (smooth pursuit eye movement and compensatory saccade) involved in eye tracking. The perceptually judged distance became shorter as the amount of pursuit-eye-movement component in eye tracking increased. A detailed analysis of the eye-movement data and the size of perceptual underestimation indicated that the underestimation was mainly caused by inaccurate extraretinal information derived from the pursuit-eye-movement system, which underestimated the distance at a constant ratio, irrespective of the velocity of tracking. Egocentric localization was not affected by the mode of eye movements, indicating that the egocentric localization system functions without interference from the inaccurate information from the pursuit-eye-movement system.

Citing Articles

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Panouilleres M, Gaveau V, Debatisse J, Jacquin P, Leblond M, Pelisson D Front Hum Neurosci. 2016; 10:91.

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The Role of Temporal Information in Perisaccadic Mislocalization.

Matziridi M, Brenner E, Smeets J PLoS One. 2015; 10(9):e0134081.

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Computational models of spatial updating in peri-saccadic perception.

Hamker F, Zirnsak M, Ziesche A, Lappe M Philos Trans R Soc Lond B Biol Sci. 2011; 366(1564):554-71.

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The influence of motion signals in hand movements.

Rodriguez-Herreros B, Lopez-Moliner J Exp Brain Res. 2008; 191(3):321-9.

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Whitney D, Goodale M Exp Brain Res. 2005; 162(3):394-400.

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References
1.
Mack A, Heuer F, Villardi K, Chambers D . The dissociation of position and extent in Müller-Lyer figures. Percept Psychophys. 1985; 37(4):335-44. DOI: 10.3758/bf03211356. View
2.
Hansen R . Spatial localization during pursuit eye movements. Vision Res. 1979; 19(11):1213-21. DOI: 10.1016/0042-6989(79)90186-x. View
3.
Schneider G . Contrasting visuomotor functions of tectum and cortex in the golden hamster. Psychol Forsch. 1967; 31(1):52-62. DOI: 10.1007/BF00422386. View
4.
Bridgemen B, Kirch M, Sperling A . Segregation of cognitive and motor aspects of visual function using induced motion. Percept Psychophys. 1981; 29(4):336-42. DOI: 10.3758/bf03207342. View
5.
Bridgeman B, Lewis S, Heit G, Nagle M . Relation between cognitive and motor-oriented systems of visual position perception. J Exp Psychol Hum Percept Perform. 1979; 5(4):692-700. DOI: 10.1037//0096-1523.5.4.692. View