Spatial frequency integration during active perception: Perceptual hysteresis when an object recedes

As we move through the world, information about objects moves to different spatial frequencies. How the visual system successfully integrates information across these changes to form a coherent percept is thus an important open question. Here we investigate such integration using hybrid faces, which...
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Gespeichert in:

Autor*in:	Timothy eBrady [verfasserIn] Aude eOliva [verfasserIn]

Format:	E-Artikel
Sprache:	Englisch

Erschienen:	2012

Schlagwörter:	perceptual organization Hysteresis spatial frequency hybrid images visual hindsight bias

Übergeordnetes Werk:	In: Frontiers in Psychology - Frontiers Media S.A., 2010, 3(2012)
Übergeordnetes Werk:	volume:3 ; year:2012

Links:	Link aufrufen Link aufrufen Link aufrufen Journal toc

DOI / URN:	10.3389/fpsyg.2012.00462

Katalog-ID:	DOAJ037814362

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callnumber-first	B - Philosophy, Psychology, Religion
author	Timothy eBrady
spellingShingle	Timothy eBrady misc BF1-990 misc perceptual organization misc Hysteresis misc spatial frequency misc hybrid images misc visual hindsight bias misc Psychology Spatial frequency integration during active perception: Perceptual hysteresis when an object recedes
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topic_title	BF1-990 Spatial frequency integration during active perception: Perceptual hysteresis when an object recedes perceptual organization Hysteresis spatial frequency hybrid images visual hindsight bias
topic	misc BF1-990 misc perceptual organization misc Hysteresis misc spatial frequency misc hybrid images misc visual hindsight bias misc Psychology
topic_unstemmed	misc BF1-990 misc perceptual organization misc Hysteresis misc spatial frequency misc hybrid images misc visual hindsight bias misc Psychology
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title	Spatial frequency integration during active perception: Perceptual hysteresis when an object recedes
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title_auth	Spatial frequency integration during active perception: Perceptual hysteresis when an object recedes
abstract	As we move through the world, information about objects moves to different spatial frequencies. How the visual system successfully integrates information across these changes to form a coherent percept is thus an important open question. Here we investigate such integration using hybrid faces, which contain different images in low and high spatial frequencies. Observers judged how similar a hybrid was to each of its component images while walking towards or away from it or having the stimulus moved towards or away from them. We find that when the stimulus is approaching, observers act as if they are integrating across spatial frequency separately at each moment. However, when the stimulus is receding, observers show a perceptual hysteresis effect, holding on to details that are imperceptible in a static stimulus condition. Thus, observers appear to make optimal inferences by sticking with their previous interpretation when losing information but constantly reinterpreting their input when gaining new information.
abstractGer	As we move through the world, information about objects moves to different spatial frequencies. How the visual system successfully integrates information across these changes to form a coherent percept is thus an important open question. Here we investigate such integration using hybrid faces, which contain different images in low and high spatial frequencies. Observers judged how similar a hybrid was to each of its component images while walking towards or away from it or having the stimulus moved towards or away from them. We find that when the stimulus is approaching, observers act as if they are integrating across spatial frequency separately at each moment. However, when the stimulus is receding, observers show a perceptual hysteresis effect, holding on to details that are imperceptible in a static stimulus condition. Thus, observers appear to make optimal inferences by sticking with their previous interpretation when losing information but constantly reinterpreting their input when gaining new information.
abstract_unstemmed	As we move through the world, information about objects moves to different spatial frequencies. How the visual system successfully integrates information across these changes to form a coherent percept is thus an important open question. Here we investigate such integration using hybrid faces, which contain different images in low and high spatial frequencies. Observers judged how similar a hybrid was to each of its component images while walking towards or away from it or having the stimulus moved towards or away from them. We find that when the stimulus is approaching, observers act as if they are integrating across spatial frequency separately at each moment. However, when the stimulus is receding, observers show a perceptual hysteresis effect, holding on to details that are imperceptible in a static stimulus condition. Thus, observers appear to make optimal inferences by sticking with their previous interpretation when losing information but constantly reinterpreting their input when gaining new information.
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title_short	Spatial frequency integration during active perception: Perceptual hysteresis when an object recedes
url	https://doi.org/10.3389/fpsyg.2012.00462 https://doaj.org/article/7255a7f3f79e4f3cb175376eca68654e http://journal.frontiersin.org/Journal/10.3389/fpsyg.2012.00462/full https://doaj.org/toc/1664-1078
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Spatial frequency integration during active perception: Perceptual hysteresis when an object recedes

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