a wealth of converging research lines has led support to the notion that specialized neural processes output a priori information about the expected effects of gravity to fine-tune motor and perceptual responses to dynamic events. arguably, these putative internal models of gravity might modulate the efficiency in visual search for objects conforming or not to gravitationally coherent dynamics. In the present work, we explored this possibility with a visual search task involving arrays of two to eight objects moving periodically back and forth. the target could be an accelerating/decelerating ball (as if bouncing on earth's surface-1g) with distractors moving at a constant speed (0g) or the reverse. moreover, the direction of the gravitational pull, as implied by the 1g motion patterns, could be aligned or misaligned with earth's gravity. overall, searches for 1g targets were more efficient than 0g targets except, notably, when stimuli displays were congruent with Earth's gravitational pull, in which case the visual search asymmetry is significantly reduced. outcomes are interpreted as reflecting the joint and mutually cancelling contribution of low-level detection of acceleration patterns and higher level detection of unexpected violations of gravitational motion.
Velado, B., Santos Miranda, B., Almeida Oliveira, F., Marques de Oliveira, H., DELLE MONACHE, S., De Sá Teizeira, N. (2024). Gravity’s impact on visual search asymmetries: Is visual gravitational motion a distinct visual feature or a familiar dynamic event?. JOURNAL OF EXPERIMENTAL PSYCHOLOGY-HUMAN PERCEPTION AND PERFORMANCE, 50(5), 451-463 [10.1037/xhp0001195].
Gravity’s impact on visual search asymmetries: Is visual gravitational motion a distinct visual feature or a familiar dynamic event?
Sergio Delle Monache;
2024-01-01
Abstract
a wealth of converging research lines has led support to the notion that specialized neural processes output a priori information about the expected effects of gravity to fine-tune motor and perceptual responses to dynamic events. arguably, these putative internal models of gravity might modulate the efficiency in visual search for objects conforming or not to gravitationally coherent dynamics. In the present work, we explored this possibility with a visual search task involving arrays of two to eight objects moving periodically back and forth. the target could be an accelerating/decelerating ball (as if bouncing on earth's surface-1g) with distractors moving at a constant speed (0g) or the reverse. moreover, the direction of the gravitational pull, as implied by the 1g motion patterns, could be aligned or misaligned with earth's gravity. overall, searches for 1g targets were more efficient than 0g targets except, notably, when stimuli displays were congruent with Earth's gravitational pull, in which case the visual search asymmetry is significantly reduced. outcomes are interpreted as reflecting the joint and mutually cancelling contribution of low-level detection of acceleration patterns and higher level detection of unexpected violations of gravitational motion.File | Dimensione | Formato | |
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