Abstract
Visual illusions explore the limits of sensory processing and provide an ideal testbed to study perception. Size illusions – stimuli whose size is consistently misperceived – do not only result from sensory cues, but can also be induced by cognitive factors, such as social status. Here we investigate, whether the ecological relevance of biological motion can also distort perceived size. We asked observers to judge the size of point-light walkers (PLWs), configurations of dots whose movements induce the perception of human movement, and visually matched control stimuli (inverted PLWs). We find that upright PLWs are consistently judged as larger than inverted PLWs, while static point-light figures do not elicit the same effect. We also show the phenomenon using an indirect paradigm: observers judged the relative size of a disc that followed an inverted PLW larger than a disc following an upright PLW. We interpret this as a contrast effect: The upright PLW is perceived larger and thus the subsequent disc is judged smaller. Together, these results demonstrate that ecologically relevant biological-motion stimuli are perceived larger than visually matched control stimuli. Our findings present a novel case of illusory size perception, where ecological importance leads to a distorted perception of size.
Highlights
Visual illusions explore the limits of sensory processing and provide an ideal testbed to study perception
We asked observers to judge the size of point-light walkers (PLWs), configurations of dots whose movements induce the perception of human movement, and visually matched control stimuli
We find that upright PLWs are consistently judged as larger than inverted PLWs, while static pointlight figures do not elicit the same effect
Summary
Visual illusions explore the limits of sensory processing and provide an ideal testbed to study perception. We asked observers to judge the size of point-light walkers (PLWs), configurations of dots whose movements induce the perception of human movement, and visually matched control stimuli (inverted PLWs). Aside from power, motivation and action goals[13] and aesthetic preference judgments[14] are likewise related to the size of non-animate objects These findings suggest that there is a general, positive, association between the importance or value of an object to the viewer and its perceived size. Upright human or terrestrial animal PLWs induce reflexive attentional orienting in a central cueing paradigm, while inverted or static figures do not[25], showing that incidental effects are not specific to stimuli presenting configural information that is typical of humans. Local motion cues, in particular those of the feet, play a crucial role in a “life detector” system: a general filter in human vision, tuned to help us detect terrestrial animals[26,27,28]
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