TY - JOUR
T1 - An event-related visual occlusion method for examining anticipatory skill in natural interceptive tasks
AU - Mann, David L.
AU - Abernethy, Bruce
AU - Farrow, Damian
AU - Davis, Mark
AU - Spratford, Wayne
PY - 2010/5
Y1 - 2010/5
N2 - This article describes a new automated method for the controlled occlusion of vision during natural tasks. The method permits the time course of the presence or absence of visual information to be linked to identifiable events within the task of interest. An example application is presented in which the method is used to examine the ability of cricket batsmen to pick up useful information from the prerelease movement patterns of the opposing bowler. Two key events, separated by a consistent within-action time lag, were identified in the cricket bowling action sequence-namely, the penultimate foot strike prior to ball release (Event 1), and the subsequent moment of ball release (Event 2). Force-plate registration of Event 1 was then used as a trigger to facilitate automated occlusion of vision using liquid crystal occlusion goggles at time points relative to Event 2. Validation demonstrated that, compared with existing approaches that are based on manual triggering, this method of occlusion permitted considerable gains in temporal precision and a reduction in the number of unusable trials. A more efficient and accurate protocol to examine anticipation is produced, while preserving the important natural coupling between perception and action.
AB - This article describes a new automated method for the controlled occlusion of vision during natural tasks. The method permits the time course of the presence or absence of visual information to be linked to identifiable events within the task of interest. An example application is presented in which the method is used to examine the ability of cricket batsmen to pick up useful information from the prerelease movement patterns of the opposing bowler. Two key events, separated by a consistent within-action time lag, were identified in the cricket bowling action sequence-namely, the penultimate foot strike prior to ball release (Event 1), and the subsequent moment of ball release (Event 2). Force-plate registration of Event 1 was then used as a trigger to facilitate automated occlusion of vision using liquid crystal occlusion goggles at time points relative to Event 2. Validation demonstrated that, compared with existing approaches that are based on manual triggering, this method of occlusion permitted considerable gains in temporal precision and a reduction in the number of unusable trials. A more efficient and accurate protocol to examine anticipation is produced, while preserving the important natural coupling between perception and action.
UR - http://www.scopus.com/inward/record.url?scp=77955896424&partnerID=8YFLogxK
U2 - 10.3758/BRM.42.2.556
DO - 10.3758/BRM.42.2.556
M3 - Article
C2 - 20479187
AN - SCOPUS:77955896424
SN - 1554-351X
VL - 42
SP - 556
EP - 562
JO - Behavior Research Methods
JF - Behavior Research Methods
IS - 2
ER -