Abstract
The perceptual processes that mediate the ability to efficiently represent object 3D structure are still not fully understood. The current study was aimed to shed light on these processes by utilizing spatially possible and impossible objects that could not be created in real 3D space. Despite being perceived as exceptionally unusual, impossible objects still possess fundamental Gestalt attributes and valid local depth cues that may support their initial successful representation. Based on this notion and on recent findings from our lab, we hypothesized that the initial representation of impossible objects would involve common mechanisms to those mediating typical object perception while the perceived differences between possible and impossible objects would emerge later along the processing hierarchy. In Experiment 1, participants preformed same/different classifications of two markers superimposed on a display containing two objects (possible or impossible). Faster reaction times were observed for displays in which the markers were superimposed on the same object (“object-based benefit”). Importantly, this benefit was similar for possible and impossible objects, suggesting that the representations of the two object categories rely on similar perceptual organization processes. Yet, responses for impossible objects were slower compared to possible objects. Experiment 2 was designed to examine the origin of this effect. Participants classified the location of two markers while exposure duration was manipulated. A similar pattern of performance was found for possible and impossible objects for the short exposure duration, with differences in accuracy between these two types of objects emerging only for longer exposure durations. Overall, these findings provide evidence that the representation of object structure relies on a multi-level process and that object impossibility selectively impairs the rendering of fine-detailed description of object structure.
Highlights
Throughout our daily lives we recognize thousands of objects quickly and accurately
In the present study we utilized a special type of visual illusion known as “impossible objects” to further unravel the perceptual processes that mediate the representation of object 3D structure
This finding suggests that despite their unusual spatial structure, impossible objects share similar perceptual organization processes to those mediating the representation of possible objects
Summary
One particular requirement for successful object recognition is the extraction of object 3D structure, which enables humans to recognize objects despite enormous changes across viewpoint and size (Marr, 1982). The exact nature of the cognitive and neural mechanisms that support the representation of object 3D structure is still not fully understood. In the present study we utilized a special type of visual illusion known as “impossible objects” to further unravel the perceptual processes that mediate the representation of object 3D structure. At the 2D level, the physical differences between possible and impossible objects are minor; the 3D interpretation of the structure of these two object categories is markedly different. Impossible objects offer a unique opportunity to test the representation of object 3D structure while other visual properties are well controlled
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