Descriptions of interference effects from non-relevant stimuli are extensive in visual target detection and identi®cation paradigms. To explore the in¯uence of features of non-relevant objects on reach-to-grasp movements, we instructed healthy normal controls to reach for and pick up a cylinde r (target) placed midsagittally 30 cm from the starting position of the hand. In Experiment 1, the target was presented alone, or accompanied by a narrower, wider, or same-size distractor positioned to the left or right of the target. In Experiment 2, the target was presented alone or accompanied by a distractor, which was slanted at a different orientation to the target. Re¯ective markers were placed on the wrist, thumb, and index ®nger of the right hand, and infra-red light-detecting cameras recorded their displacement through a calibrated 3-dimensional working space. Kinematic parameters were derived and analysed. Consistent changes in the expression of peak velocity, acceleration, and deceleration were evident when the distractor was narrower or wider than the target. The impact of the orientation of the distractor, conversely, was not marked. We discuss the results in the context of physiological ®ndings and models of selective attention.

Interference from distractors in reach-to-grasp movements

CASTIELLO, UMBERTO
2000

Abstract

Descriptions of interference effects from non-relevant stimuli are extensive in visual target detection and identi®cation paradigms. To explore the in¯uence of features of non-relevant objects on reach-to-grasp movements, we instructed healthy normal controls to reach for and pick up a cylinde r (target) placed midsagittally 30 cm from the starting position of the hand. In Experiment 1, the target was presented alone, or accompanied by a narrower, wider, or same-size distractor positioned to the left or right of the target. In Experiment 2, the target was presented alone or accompanied by a distractor, which was slanted at a different orientation to the target. Re¯ective markers were placed on the wrist, thumb, and index ®nger of the right hand, and infra-red light-detecting cameras recorded their displacement through a calibrated 3-dimensional working space. Kinematic parameters were derived and analysed. Consistent changes in the expression of peak velocity, acceleration, and deceleration were evident when the distractor was narrower or wider than the target. The impact of the orientation of the distractor, conversely, was not marked. We discuss the results in the context of physiological ®ndings and models of selective attention.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11577/1341458
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