Title

Sensory Uncertainty Leads To Systematic Misperception Of The Direction Of Motion In Depth

Keywords

3D perception: *other; Binocular vision: neural mechanisms and models; Motion: in depth

Abstract

Although we have made major advances in understanding motion perception based on the processing of lateral (2D) motion signals on computer displays, the majority of motion in the real (3D) world occurs outside of the plane of fixation, and motion directly toward or away from observers has particular behavioral relevance. Previous work has reported a systematic lateral bias in the perception of 3D motion, such that an object on a collision course with an observer’s head is frequently judged to miss it, with obvious negative consequences. To better understand this bias, we systematically investigated the accuracy of 3D motion perception while manipulating sensory noise by varying the contrast of a moving target and its position in depth relative to fixation. Inconsistent with previous work, we found little bias under low sensory noise conditions. With increased sensory noise, however, we revealed a novel perceptual phenomenon: observers demonstrated a surprising tendency to confuse the direction of motion-in-depth, such that approaching objects were reported to be receding and vice versa. Subsequent analysis revealed that the lateral and motion-in-depth components of observers’ reports are similarly affected, but that the effects on the motion-in-depth component (i.e., the motion-in-depth confusions) are much more apparent than those on the lateral component. In addition to revealing this novel visual phenomenon, these results shed new light on errors that can occur in motion perception and provide a basis for continued development of motion perception models. Finally, our findings suggest methods to evaluate the effectiveness of 3D visualization environments, such as 3D movies and virtual reality devices.

Publication Date

7-18-2015

Publication Title

Attention, Perception, and Psychophysics

Volume

77

Issue

5

Number of Pages

1685-1696

Document Type

Article

Personal Identifier

scopus

DOI Link

https://doi.org/10.3758/s13414-015-0881-x

Socpus ID

84931573181 (Scopus)

Source API URL

https://api.elsevier.com/content/abstract/scopus_id/84931573181

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