Early differential sensitivity of evoked-potentials to local and global shape during the perception of three-dimensional objects
Early differential sensitivity of evoked-potentials to local and global shape during the perception of three-dimensional objects
Here we investigated the time course underlying differential processing of local and global shape information during the perception of complex three-dimensional (3D) objects. Observers made shape matching judgments about pairs of sequentially presented multipart novel objects. Event-related potentials (ERPs) were used to measure perceptual sensitivity to 3D shape differences in terms of local part structure and global shape configuration – based on predictions derived from hierarchical structural description models of object recognition. There were three types of different object trials in which stimulus pairs (1) shared local parts but differed in global shape configuration; (2) contained different local parts but shared global configuration or (3) shared neither local parts nor global configuration. Analyses of the ERP data showed differential amplitude modulation as a function of shape similarity as early as the N1 component between 146–215 ms post-stimulus onset. These negative amplitude deflections were more similar between objects sharing global shape configuration than local part structure. Differentiation among all stimulus types was reflected in N2 amplitude modulations between 276–330 ms. sLORETA inverse solutions showed stronger involvement of left occipitotemporal areas during the N1 for object discrimination weighted towards local part structure. The results suggest that the perception of 3D object shape involves parallel processing of information at local and global scales. This processing is characterised by relatively slow derivation of ‘fine-grained’ local shape structure, and fast derivation of ‘coarse-grained’ global shape configuration. We propose that the rapid early derivation of global shape attributes underlies the observed patterns of N1 amplitude modulations.
495-509
Leek, E. Charles
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Roberts, Mark
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Oliver, Zoe J.
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Cristino, Filipe
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Pegna, Alan J.
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3 August 2016
Leek, E. Charles
6f63c405-e28f-4f8c-8ead-3b0a79c7dc88
Roberts, Mark
bb708851-2a5e-4850-a957-0728e58ce098
Oliver, Zoe J.
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Cristino, Filipe
b47224fa-e770-4e31-9371-4737be3e1e50
Pegna, Alan J.
c24ee439-41ee-4014-bab8-7296e9d24a3d
Leek, E. Charles, Roberts, Mark, Oliver, Zoe J., Cristino, Filipe and Pegna, Alan J.
(2016)
Early differential sensitivity of evoked-potentials to local and global shape during the perception of three-dimensional objects.
Neuropsychologia, 89, .
(doi:10.1016/j.neuropsychologia.2016.07.006).
Abstract
Here we investigated the time course underlying differential processing of local and global shape information during the perception of complex three-dimensional (3D) objects. Observers made shape matching judgments about pairs of sequentially presented multipart novel objects. Event-related potentials (ERPs) were used to measure perceptual sensitivity to 3D shape differences in terms of local part structure and global shape configuration – based on predictions derived from hierarchical structural description models of object recognition. There were three types of different object trials in which stimulus pairs (1) shared local parts but differed in global shape configuration; (2) contained different local parts but shared global configuration or (3) shared neither local parts nor global configuration. Analyses of the ERP data showed differential amplitude modulation as a function of shape similarity as early as the N1 component between 146–215 ms post-stimulus onset. These negative amplitude deflections were more similar between objects sharing global shape configuration than local part structure. Differentiation among all stimulus types was reflected in N2 amplitude modulations between 276–330 ms. sLORETA inverse solutions showed stronger involvement of left occipitotemporal areas during the N1 for object discrimination weighted towards local part structure. The results suggest that the perception of 3D object shape involves parallel processing of information at local and global scales. This processing is characterised by relatively slow derivation of ‘fine-grained’ local shape structure, and fast derivation of ‘coarse-grained’ global shape configuration. We propose that the rapid early derivation of global shape attributes underlies the observed patterns of N1 amplitude modulations.
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Accepted/In Press date: 6 July 2016
e-pub ahead of print date: 7 July 2016
Published date: 3 August 2016
Identifiers
Local EPrints ID: 493563
URI: http://eprints.soton.ac.uk/id/eprint/493563
ISSN: 0028-3932
PURE UUID: 2601ce35-5940-4b56-b9f8-773609b80be5
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Date deposited: 06 Sep 2024 16:34
Last modified: 07 Sep 2024 02:11
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Author:
E. Charles Leek
Author:
Mark Roberts
Author:
Zoe J. Oliver
Author:
Filipe Cristino
Author:
Alan J. Pegna
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