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Surface diagnosticity predicts the high-level representation of regular and irregular object shape in human vision

Surface diagnosticity predicts the high-level representation of regular and irregular object shape in human vision
Surface diagnosticity predicts the high-level representation of regular and irregular object shape in human vision
The human visual system has an extraordinary capacity to compute three-dimensional (3D) shape structure for both geometrically regular and irregular objects. The goal of this study was to shed new light on the underlying representational structures that support this ability. Observers (N = 85) completed two complementary perceptual tasks. Experiment 1 involved whole–part matching of image parts to whole geometrically regular and irregular novel object shapes. Image parts comprised either regions of edge contour, volumetric parts, or surfaces. Performance was better for irregular than for regular objects and interacted with part type: volumes yielded better matching performance than surfaces for regular but not for irregular objects. The basis for this effect was further explored in Experiment 2, which used implicit part–whole repetition priming. Here, we orthogonally manipulated shape regularity and a new factor of surface diagnosticity (how predictive a single surface is of object identity). The results showed that surface diagnosticity, not object shape regularity, determined the differential processing of volumes and surfaces. Regardless of shape regularity, objects with low surface diagnosticity were better primed by volumes than by surfaces. In contrast, objects with high surface diagnosticity showed the opposite pattern. These findings are the first to show that surface diagnosticity plays a fundamental role in object recognition. We propose that surface-based shape primitives—rather than volumetric parts—underlie the derivation of 3D object shape in human vision.
Object recognition, Priming, Shape regularity, Surface diagnosticity, Visual perception, Whole-part matching
1943-3921
1589-1608
Reppa, Irene
82356dae-80dc-4691-94e7-b10f42737a58
Leek, E. Charles
6f63c405-e28f-4f8c-8ead-3b0a79c7dc88
Reppa, Irene
82356dae-80dc-4691-94e7-b10f42737a58
Leek, E. Charles
6f63c405-e28f-4f8c-8ead-3b0a79c7dc88

Reppa, Irene and Leek, E. Charles (2019) Surface diagnosticity predicts the high-level representation of regular and irregular object shape in human vision. Attention, Perception, and Psychophysics, 81 (5), 1589-1608. (doi:10.3758/s13414-019-01698-4).

Record type: Article

Abstract

The human visual system has an extraordinary capacity to compute three-dimensional (3D) shape structure for both geometrically regular and irregular objects. The goal of this study was to shed new light on the underlying representational structures that support this ability. Observers (N = 85) completed two complementary perceptual tasks. Experiment 1 involved whole–part matching of image parts to whole geometrically regular and irregular novel object shapes. Image parts comprised either regions of edge contour, volumetric parts, or surfaces. Performance was better for irregular than for regular objects and interacted with part type: volumes yielded better matching performance than surfaces for regular but not for irregular objects. The basis for this effect was further explored in Experiment 2, which used implicit part–whole repetition priming. Here, we orthogonally manipulated shape regularity and a new factor of surface diagnosticity (how predictive a single surface is of object identity). The results showed that surface diagnosticity, not object shape regularity, determined the differential processing of volumes and surfaces. Regardless of shape regularity, objects with low surface diagnosticity were better primed by volumes than by surfaces. In contrast, objects with high surface diagnosticity showed the opposite pattern. These findings are the first to show that surface diagnosticity plays a fundamental role in object recognition. We propose that surface-based shape primitives—rather than volumetric parts—underlie the derivation of 3D object shape in human vision.

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Published date: 15 July 2019
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Keywords: Object recognition, Priming, Shape regularity, Surface diagnosticity, Visual perception, Whole-part matching
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Identifiers

Local EPrints ID: 494469
URI: http://eprints.soton.ac.uk/id/eprint/494469
DOI: doi:10.3758/s13414-019-01698-4
ISSN: 1943-3921
PURE UUID: a31cc98d-8f75-46ad-80ea-542cd0a4d816
ORCID for E. Charles Leek: ORCID iD orcid.org/0000-0001-9258-7504

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Date deposited: 09 Oct 2024 16:35
Last modified: 10 Oct 2024 02:09

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Author: Irene Reppa
Author: E. Charles Leek ORCID iD

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