Motion integration during motion aftereffects

Zoltán Vidnyánszky; Erik Blaser; Thomas V. Papathomas

doi:10.1016/S1364-6613(02)01871-5

Motion integration during motion aftereffects

Zoltán Vidnyánszky, Erik Blaser, Thomas V. Papathomas

Brain Health Institute

Research output: Contribution to journal › Review article › peer-review

18 Scopus citations

Abstract

The perceived global motion of a stimulus depends on how its different local motion-direction vectors are distributed in space and time. When they are explicitly co-localized, as in the case of locally paired motion, competitive motion integration mechanisms produce a unitary global motion direction determined by their vector average. During motion aftereffects induced by simultaneous adaptation to multiple motion directions, just as in the case of locally paired motion, different directional signals originate simultaneously from exactly the same position in space. Therefore, the perceived global motion direction during motion aftereffects results from local vector averaging of the co-localized motion-direction signals induced by adaptation.

Original language	English (US)
Pages (from-to)	157-161
Number of pages	5
Journal	Trends in Cognitive Sciences
Volume	6
Issue number	4
DOIs	https://doi.org/10.1016/S1364-6613(02)01871-5
State	Published - Apr 1 2002

All Science Journal Classification (ASJC) codes

Neuropsychology and Physiological Psychology
Experimental and Cognitive Psychology
Cognitive Neuroscience

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10.1016/S1364-6613(02)01871-5

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title = "Motion integration during motion aftereffects",

abstract = "The perceived global motion of a stimulus depends on how its different local motion-direction vectors are distributed in space and time. When they are explicitly co-localized, as in the case of locally paired motion, competitive motion integration mechanisms produce a unitary global motion direction determined by their vector average. During motion aftereffects induced by simultaneous adaptation to multiple motion directions, just as in the case of locally paired motion, different directional signals originate simultaneously from exactly the same position in space. Therefore, the perceived global motion direction during motion aftereffects results from local vector averaging of the co-localized motion-direction signals induced by adaptation.",

author = "Zolt{\'a}n Vidny{\'a}nszky and Erik Blaser and Papathomas, {Thomas V.}",

note = "Funding Information: The authors{\textquoteright} work was supported by a grant from the James S. McDonnell Foundation (No. 95-60) to T.V.P. and by the Hungarian National Research Fund (OTKA, No. T022297) to Z.V. We would like to thank the anonymous referees for their valuable suggestions and comments.",

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doi = "10.1016/S1364-6613(02)01871-5",

language = "English (US)",

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T1 - Motion integration during motion aftereffects

AU - Vidnyánszky, Zoltán

AU - Blaser, Erik

AU - Papathomas, Thomas V.

N1 - Funding Information: The authors’ work was supported by a grant from the James S. McDonnell Foundation (No. 95-60) to T.V.P. and by the Hungarian National Research Fund (OTKA, No. T022297) to Z.V. We would like to thank the anonymous referees for their valuable suggestions and comments.

PY - 2002/4/1

Y1 - 2002/4/1

N2 - The perceived global motion of a stimulus depends on how its different local motion-direction vectors are distributed in space and time. When they are explicitly co-localized, as in the case of locally paired motion, competitive motion integration mechanisms produce a unitary global motion direction determined by their vector average. During motion aftereffects induced by simultaneous adaptation to multiple motion directions, just as in the case of locally paired motion, different directional signals originate simultaneously from exactly the same position in space. Therefore, the perceived global motion direction during motion aftereffects results from local vector averaging of the co-localized motion-direction signals induced by adaptation.

AB - The perceived global motion of a stimulus depends on how its different local motion-direction vectors are distributed in space and time. When they are explicitly co-localized, as in the case of locally paired motion, competitive motion integration mechanisms produce a unitary global motion direction determined by their vector average. During motion aftereffects induced by simultaneous adaptation to multiple motion directions, just as in the case of locally paired motion, different directional signals originate simultaneously from exactly the same position in space. Therefore, the perceived global motion direction during motion aftereffects results from local vector averaging of the co-localized motion-direction signals induced by adaptation.

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Motion integration during motion aftereffects

Abstract

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