Erratum to “Information limitations in perception of shape from texture”: [Vision Research 41 (2001) 1519–1534]

• Published in: Vision research (Oxford) Vol. 41; no. 22; pp. 2927 - 2942
• Main Authors: Li, Andrea, Zaidi, Qasim
• Format: Journal Article
• Language: English
• Published: England Elsevier Ltd 01.10.2001
• Subjects: Axis of maximum curvature; Form Perception - physiology; Humans; Mathematics; Orientation - physiology; Orientation modulations; Psychophysics; Shape from texture; Space Perception - physiology; Spatial frequency modulations; Axis of maximum curvature; Spatial frequency modulations; Shape from texture; Orientation modulations
• ISSN: 0042-6989; 1878-5646
• DOI: 10.1016/S0042-6989(01)00255-3

Li and Zaidi (Li, A., and Zaidi, Q. (2000) Vision Research, 40, 217–242) showed that the veridical perception of the 3-dimensional (3D) shape of a corrugated surface from texture cues is entirely dependent on the visibility of critical patterns of oriented energy. These patterns are created by perspective projection of surface markings oriented along lines of maximum 3D curvature. In images missing these orientation modulations, observers confused concavities with convexities, and leftward slants with rightward slants. In this paper, it is shown that these results were a direct consequence of the physical information conveyed by different oriented components of the texture pattern. For texture patterns consisting of single gratings of arbitrary spatial frequency and orientation, equations are derived from perspective geometry that describe the local spatial frequency and orientation for any slant at any height above and below eye level. The analysis shows that only gratings oriented within a few degrees of the axis of maximum curvature exhibit distinct patterns of orientation modulations for convex, concave, and leftward and rightward slanted portions of a corrugated surface. All other gratings exhibit patterns of frequency and orientation modulations that are distinct for curvatures on the one hand and slants on the other, but that are nearly identical for curvatures of different sign, and nearly identical for slants of different direction. The perceived shape of surfaces was measured in a 5AFC paradigm (concave, convex, leftward slant, rightward slant, and flat-frontoparallel). Observers perceived all five shapes correctly only for gratings oriented within a few degrees of the axis of maximum curvature. For all other oriented gratings, observers could distinguish curvatures from slants, but could not distinguish signs of curvature or directions of slant. These results demonstrate that human observers utilize the shape information provided by texture components along both critical and non-critical orientations.