TY - JOUR
T1 - Are predictive saccades linked to the processing of peripheral information?
AU - Vater, Christian
AU - Mann, David L.
N1 - Publisher Copyright:
© 2022, The Author(s).
PY - 2023/7
Y1 - 2023/7
N2 - High-level athletes can predict the actions of an opposing player. Interestingly, such predictions are also reflected by the athlete’s gaze behavior. In cricket, for example, players first pursue the ball with their eyes before they very often initiate two predictive saccades: one to the predicted ball-bounce point and a second to the predicted ball-bat-contact point. That means, they move their eyes ahead of the ball and “wait” for the ball at the new fixation location, potentially using their peripheral vision to update information about the ball’s trajectory. In this study, we investigated whether predictive saccades are linked to the processing of information in peripheral vision and if predictive saccades are superior to continuously following the ball with foveal vision using smooth-pursuit eye-movements (SPEMs). In the first two experiments, we evoked the typical eye-movements observed in cricket and showed that the information gathered during SPEMs is sufficient to predict when the moving object will hit the target location and that (additional) peripheral monitoring of the object does not help to improve performance. In a third experiment, we show that it could actually be beneficial to use SPEMs rather than predictive saccades to improve performance. Thus, predictive saccades ahead of a target are unlikely to be performed to enhance the peripheral monitoring of target.
AB - High-level athletes can predict the actions of an opposing player. Interestingly, such predictions are also reflected by the athlete’s gaze behavior. In cricket, for example, players first pursue the ball with their eyes before they very often initiate two predictive saccades: one to the predicted ball-bounce point and a second to the predicted ball-bat-contact point. That means, they move their eyes ahead of the ball and “wait” for the ball at the new fixation location, potentially using their peripheral vision to update information about the ball’s trajectory. In this study, we investigated whether predictive saccades are linked to the processing of information in peripheral vision and if predictive saccades are superior to continuously following the ball with foveal vision using smooth-pursuit eye-movements (SPEMs). In the first two experiments, we evoked the typical eye-movements observed in cricket and showed that the information gathered during SPEMs is sufficient to predict when the moving object will hit the target location and that (additional) peripheral monitoring of the object does not help to improve performance. In a third experiment, we show that it could actually be beneficial to use SPEMs rather than predictive saccades to improve performance. Thus, predictive saccades ahead of a target are unlikely to be performed to enhance the peripheral monitoring of target.
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U2 - 10.1007/s00426-022-01743-2
DO - 10.1007/s00426-022-01743-2
M3 - Article
C2 - 36167931
AN - SCOPUS:85138923697
SN - 0340-0727
VL - 87
SP - 1501
EP - 1519
JO - Psychological Research
JF - Psychological Research
IS - 5
ER -