Motion extrapolation is not responsible for the flash-lag effect

Eli Brenner; J. B J Smeets

doi:10.1016/S0042-6989(00)00067-5

Motion extrapolation is not responsible for the flash-lag effect

Eli Brenner^*, J. B J Smeets

^*Corresponding author for this work

Research output: Contribution to Journal › Article › Academic › peer-review

Abstract

To achieve perceptual alignment between a flashed target and a moving one, subjects typically require the flashed target to be aligned with a position that the moving target will only reach some time after the flash (the flash-lag effect). We examined how the magnitude of this misalignment changes near an abrupt change in velocity. The magnitude of the misalignment turns out to depend on the target's velocity after, rather than before, the flash. Thus, the misalignment cannot be caused by motion extrapolation. Neither can it be the inevitable consequence of a difference between the time it takes to process flashed and moving stimuli, because the magnitude of the misalignment is influenced by the extent to which subjects can anticipate the flash. We propose that it is the consequence of having to 'sample' the moving target's position in response to the flash. (C) 2000 Elsevier Science Ltd.

Original language	English
Pages (from-to)	1645-1648
Number of pages	4
Journal	Vision Research
Volume	40
Issue number	13
DOIs	https://doi.org/10.1016/S0042-6989(00)00067-5
Publication status	Published - 16 Jun 2000

Keywords

Human
Motion extrapolation
Neuronal delays
Spatial localisation
Timing

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1016/S0042-6989(00)00067-5

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abstract = "To achieve perceptual alignment between a flashed target and a moving one, subjects typically require the flashed target to be aligned with a position that the moving target will only reach some time after the flash (the flash-lag effect). We examined how the magnitude of this misalignment changes near an abrupt change in velocity. The magnitude of the misalignment turns out to depend on the target's velocity after, rather than before, the flash. Thus, the misalignment cannot be caused by motion extrapolation. Neither can it be the inevitable consequence of a difference between the time it takes to process flashed and moving stimuli, because the magnitude of the misalignment is influenced by the extent to which subjects can anticipate the flash. We propose that it is the consequence of having to 'sample' the moving target's position in response to the flash. (C) 2000 Elsevier Science Ltd.",

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T1 - Motion extrapolation is not responsible for the flash-lag effect

AU - Brenner, Eli

AU - Smeets, J. B J

PY - 2000/6/16

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N2 - To achieve perceptual alignment between a flashed target and a moving one, subjects typically require the flashed target to be aligned with a position that the moving target will only reach some time after the flash (the flash-lag effect). We examined how the magnitude of this misalignment changes near an abrupt change in velocity. The magnitude of the misalignment turns out to depend on the target's velocity after, rather than before, the flash. Thus, the misalignment cannot be caused by motion extrapolation. Neither can it be the inevitable consequence of a difference between the time it takes to process flashed and moving stimuli, because the magnitude of the misalignment is influenced by the extent to which subjects can anticipate the flash. We propose that it is the consequence of having to 'sample' the moving target's position in response to the flash. (C) 2000 Elsevier Science Ltd.

AB - To achieve perceptual alignment between a flashed target and a moving one, subjects typically require the flashed target to be aligned with a position that the moving target will only reach some time after the flash (the flash-lag effect). We examined how the magnitude of this misalignment changes near an abrupt change in velocity. The magnitude of the misalignment turns out to depend on the target's velocity after, rather than before, the flash. Thus, the misalignment cannot be caused by motion extrapolation. Neither can it be the inevitable consequence of a difference between the time it takes to process flashed and moving stimuli, because the magnitude of the misalignment is influenced by the extent to which subjects can anticipate the flash. We propose that it is the consequence of having to 'sample' the moving target's position in response to the flash. (C) 2000 Elsevier Science Ltd.

KW - Human

KW - Motion extrapolation

KW - Neuronal delays

KW - Spatial localisation

KW - Timing

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Motion extrapolation is not responsible for the flash-lag effect

Abstract

Keywords

UN SDGs

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