Abstract
For too long, the size distance invariance hypothesis (SDIH) has been the prevalent explanation for size perception. Despite inconclusive evidence, the SDIH has endured, primarily due to lack of suitable information sources for size perception. Because it was derived using the geometry of monocular viewing, another issue is whether the SDIH can encompass binocular vision. A possible alternative to SDIH now exists. The binocular source of size information proposed by Kim (2017) provides metric information about an object’s size. Comprised of four angular measures and the interpupillary distance (IPD), with the explicit exclusion of egocentric distance information, Kim’s binocular variable demands independence of perceived size and perceived distance, whereas the SDIH assumes interdependence of the two percepts. The validity of Kim’s proposed information source was tested in three experiments in which participants viewed a virtual object stereoscopically then judged its size and distance. In Experiments 1 and 2, participants’ size judgments were more accurate and less biased than their distance judgments, a finding further reinforced by the results of partial correlation analyses, demonstrating that perceived (stereoscopic) size and distance are independent, rather than interdependent as the SDIH assumes. Experiment 3 manipulated participants’ IPDs, one component of Kim’s proposed variable. Size and distance judgments were overestimated under a diminished IPD, but underestimated under an enlarged IPD, a result consistent with predictions based on participants’ utilization of the proposed information source. Results provide unequivocal evidence against the SDIH as an account of size perception and corroborate the utility of Kim’s proposed variable as a viable alternative for the binocular visual system.
Highlights
The sense of solidity experienced when viewing a pair of two-dimensional (2-D) stereo images is compelling
The present study was motivated by possible differences between monocular and binocular modes of visual perception and their implications for size perception
This study sought to clarify whether the visual system relies on a generic solution such as the size distance invariance hypothesis (SDIH) for a visual task, i.e., size perception, irrespective of the mode of perception, or utilizes a mechanism designed for the specific mode of perception such as that proposed by Kim (2017) for binocular size perception
Summary
The sense of solidity experienced when viewing a pair of two-dimensional (2-D) stereo images is compelling. The added depth that is unavailable in each 2-D image may contribute to the vivid impression. This may be why Pinker 241) declares binocular vision as “one of the glories of nature.”. It is well documented that binocular vision facilitates our daily interactions with the surrounding environment (Jackson et al, 1997; Watt and Bradshaw, 2000, 2003; Melmoth and Grant, 2006). The advantages of binocular vision have been well recognized, but its contribution to space perception has been unimpressive.
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