A polarity effect in misoriented object recognition: The role of polar features in the computation of orientation-invariant shape representations
A polarity effect in misoriented object recognition: The role of polar features in the computation of orientation-invariant shape representations
This study investigated the contribution of polar features and internal shape axes to misoriented object recognition. A recognition memory paradigm was used to examine the effects of stimulus orientation on the recognition of previously memorized 2-D novel objects. In contrast to some recent reports, Experiment 1 showed that orientation-invariant performance can be found from the outset of testing with objects containing a salient axis of symmetry. In Experiments 2 and 3 it was found that the removal of a single salient polar feature, while preserving the axis of elongation, was sufficient to increase stimulus orientation time costs. This polarity effect suggests that polar features, and shape axes, play a role in the computation of orientation-invariant shape representations. It is proposed that shape axes facilitate the localization of polar features, which, in turn, are used to resolve the polarity of shape representations during recognition.
573-600
Leek, E. Charles
6f63c405-e28f-4f8c-8ead-3b0a79c7dc88
Johnston, Stephen J.
4f381ad2-12a5-443a-a5ff-ecb781e2ec6d
Leek, E. Charles
6f63c405-e28f-4f8c-8ead-3b0a79c7dc88
Johnston, Stephen J.
4f381ad2-12a5-443a-a5ff-ecb781e2ec6d
Leek, E. Charles and Johnston, Stephen J.
(2007)
A polarity effect in misoriented object recognition: The role of polar features in the computation of orientation-invariant shape representations.
Visual Cognition, 13 (5), .
(doi:10.1080/13506280544000048).
Abstract
This study investigated the contribution of polar features and internal shape axes to misoriented object recognition. A recognition memory paradigm was used to examine the effects of stimulus orientation on the recognition of previously memorized 2-D novel objects. In contrast to some recent reports, Experiment 1 showed that orientation-invariant performance can be found from the outset of testing with objects containing a salient axis of symmetry. In Experiments 2 and 3 it was found that the removal of a single salient polar feature, while preserving the axis of elongation, was sufficient to increase stimulus orientation time costs. This polarity effect suggests that polar features, and shape axes, play a role in the computation of orientation-invariant shape representations. It is proposed that shape axes facilitate the localization of polar features, which, in turn, are used to resolve the polarity of shape representations during recognition.
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e-pub ahead of print date: 7 November 2007
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Local EPrints ID: 494492
URI: http://eprints.soton.ac.uk/id/eprint/494492
ISSN: 1350-6285
PURE UUID: 345e2a02-35ef-4e6b-8e57-82a3abc6c501
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Date deposited: 09 Oct 2024 16:55
Last modified: 10 Oct 2024 02:09
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Author:
E. Charles Leek
Author:
Stephen J. Johnston
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