Stroboscopic vision and sustained attention during coincidence-anticipation

Rafael Ballester; Florentino Huertas; Makoto Uji; Simon Bennett

doi:10.1038/s41598-017-18092-5

Stroboscopic vision and sustained attention during coincidence-anticipation

Rafael Ballester, Florentino Huertas, Makoto Uji, Simon Bennett

School of Psychology and Neuroscience

Research output: Contribution to journal › Article › peer-review

Abstract

We compared coincidence-anticipation performance in normal vision and stroboscopic vision as a function of time-on-task. Participants estimated the arrival time of a real object that moved with constant acceleration (−0.7, 0, +0.7 m/s²) in a pseudo-randomised order across 4 blocks of 30 trials in both vision conditions, received in a counter-balanced order. Participants (n = 20) became more errorful (accuracy and variability) in the normal vision condition as a function of time-on-task, whereas performance was maintained in the stroboscopic vision condition. We interpret these data as showing that participants failed to maintain coincidence-anticipation performance in the normal vision condition due to monotony and attentional underload. In contrast, the stroboscopic vision condition placed a greater demand on visual-spatial memory for motion extrapolation, and thus participants did not experience the typical vigilance decrement in performance. While short-term adaptation effects from practicing in stroboscopic vision are promising, future work needs to consider for how long participants can maintain effortful processing, and whether there are negative carry-over effects from cognitive fatigue when transferring to normal vision.

Original language	English
Article number	17898
Number of pages	7
Journal	Scientific Reports
Volume	7
Early online date	20 Dec 2017
DOIs	https://doi.org/10.1038/s41598-017-18092-5
Publication status	E-pub ahead of print - 20 Dec 2017

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Cite this

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title = "Stroboscopic vision and sustained attention during coincidence-anticipation",

abstract = "We compared coincidence-anticipation performance in normal vision and stroboscopic vision as a function of time-on-task. Participants estimated the arrival time of a real object that moved with constant acceleration (−0.7, 0, +0.7 m/s2) in a pseudo-randomised order across 4 blocks of 30 trials in both vision conditions, received in a counter-balanced order. Participants (n = 20) became more errorful (accuracy and variability) in the normal vision condition as a function of time-on-task, whereas performance was maintained in the stroboscopic vision condition. We interpret these data as showing that participants failed to maintain coincidence-anticipation performance in the normal vision condition due to monotony and attentional underload. In contrast, the stroboscopic vision condition placed a greater demand on visual-spatial memory for motion extrapolation, and thus participants did not experience the typical vigilance decrement in performance. While short-term adaptation effects from practicing in stroboscopic vision are promising, future work needs to consider for how long participants can maintain effortful processing, and whether there are negative carry-over effects from cognitive fatigue when transferring to normal vision.",

author = "Rafael Ballester and Florentino Huertas and Makoto Uji and Simon Bennett",

note = "This research was supported by a Spanish Ministerio de Educaci{\'o}n y Cultura (https://sede.educacion.gob.es) predoctoral grant (FPU13-05605) to R.B and project research grants: Junta de Andalucia Proyecto de Excelencia (SEJ-6414), Ministerio de Econom{\'i}a y Competitividad (PSI2013-46385) to FH.",

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AU - Ballester, Rafael

AU - Huertas, Florentino

AU - Uji, Makoto

AU - Bennett, Simon

N1 - This research was supported by a Spanish Ministerio de Educación y Cultura (https://sede.educacion.gob.es) predoctoral grant (FPU13-05605) to R.B and project research grants: Junta de Andalucia Proyecto de Excelencia (SEJ-6414), Ministerio de Economía y Competitividad (PSI2013-46385) to FH.

PY - 2017/12/20

Y1 - 2017/12/20

N2 - We compared coincidence-anticipation performance in normal vision and stroboscopic vision as a function of time-on-task. Participants estimated the arrival time of a real object that moved with constant acceleration (−0.7, 0, +0.7 m/s2) in a pseudo-randomised order across 4 blocks of 30 trials in both vision conditions, received in a counter-balanced order. Participants (n = 20) became more errorful (accuracy and variability) in the normal vision condition as a function of time-on-task, whereas performance was maintained in the stroboscopic vision condition. We interpret these data as showing that participants failed to maintain coincidence-anticipation performance in the normal vision condition due to monotony and attentional underload. In contrast, the stroboscopic vision condition placed a greater demand on visual-spatial memory for motion extrapolation, and thus participants did not experience the typical vigilance decrement in performance. While short-term adaptation effects from practicing in stroboscopic vision are promising, future work needs to consider for how long participants can maintain effortful processing, and whether there are negative carry-over effects from cognitive fatigue when transferring to normal vision.

AB - We compared coincidence-anticipation performance in normal vision and stroboscopic vision as a function of time-on-task. Participants estimated the arrival time of a real object that moved with constant acceleration (−0.7, 0, +0.7 m/s2) in a pseudo-randomised order across 4 blocks of 30 trials in both vision conditions, received in a counter-balanced order. Participants (n = 20) became more errorful (accuracy and variability) in the normal vision condition as a function of time-on-task, whereas performance was maintained in the stroboscopic vision condition. We interpret these data as showing that participants failed to maintain coincidence-anticipation performance in the normal vision condition due to monotony and attentional underload. In contrast, the stroboscopic vision condition placed a greater demand on visual-spatial memory for motion extrapolation, and thus participants did not experience the typical vigilance decrement in performance. While short-term adaptation effects from practicing in stroboscopic vision are promising, future work needs to consider for how long participants can maintain effortful processing, and whether there are negative carry-over effects from cognitive fatigue when transferring to normal vision.

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DO - 10.1038/s41598-017-18092-5

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VL - 7

JO - Scientific Reports

JF - Scientific Reports

M1 - 17898

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Stroboscopic vision and sustained attention during coincidence-anticipation

Abstract

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