The neurophysiology of figure-ground segregation in primary visual cortex

Lamme, Victor A. F.

doi:10.1523/jneurosci.15-02-01605.1995

Cited by 842 publications

(819 citation statements)

References 21 publications

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“…These different schemes may explain the 490 opposing power changes in gamma reported here. While opposing power changes in 491 gamma within the same visual area have not been reported before, we note that previous 492 studies on figure-ground segregation have reported either increases (Lamme, 1995; 493…”

mentioning

confidence: 43%

“…The role of gamma rhythms in figure-ground segregation is hypothesised to result from 486 one or two general processes: (i) region labelling, achieved by labelling corresponding 487 elements in an isomorphic surface representation (Lamme, 1995); and/or (ii) border 488 ownership coding, achieved through contour representation following the activity of 489 orientation-selective units (Craft, et al, 2007). These different schemes may explain the 490 opposing power changes in gamma reported here.…”

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confidence: 88%

“…For example, studies on figure-ground coding in monkey V1 have reported 498 enhanced spike rates within an object"s surface representation (Lamme, 1995;Zipser, et 499 al., 1996). On the other hand, multi-unit cellular recording in non-human primates showed 500 strong decoupling of population activity across a figure/ground border (Gail, et al, 2000).…”

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confidence: 99%

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The role of oscillatory brain activity in object processing and figure–ground segmentation in human vision

Kinsey

Anderson

Hadjipapas

et al. 2011

International Journal of Psychophysiology

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confidence: 43%

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confidence: 88%

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The role of oscillatory brain activity in object processing and figure–ground segmentation in human vision

Kinsey

Anderson

Hadjipapas

et al. 2011

International Journal of Psychophysiology

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“…The essence of Wgure/ ground organization is to assign an increased salience to the Wgure relative to the ground regions. In contrast to neurophysiological studies (e.g., Lamme 1995), to date no fMRI study has reported a response that is retinotopically matched with an arbitrary Wgure shape, in the absence of diVerentiating local cues.…”

Section: Experiments 1: Figure-ground Conwgurationmentioning

confidence: 66%

“…In terms of neural architecture, does the mechanism employ lateral interactions (e.g., Gerrits and Vendrik 1970;Grossberg and Mingolla 1985;Grossberg 1994;Baek and Sajda 2005;Pao et al 1999;Zhaoping 2005), top-down feedback (e.g., Lamme and Roelfsema 2000;Lamme et al 2002;Roelfsema et al 2002;Craft et al 2007) or more sophisticated combinations? In terms of its coding mechanism, do the Wgure/ground conWgurations use border-based coding (e.g., von der Heydt et al 2003Heydt et al , 2005Craft et al 2007) or region-based coding (e.g., Lamme 1995;Zipser et al 1996;Lamme et al 1998;Super et al 2001;Roelfsema et al 2002)?…”

Section: Introductionmentioning

confidence: 99%

Occipital network for figure/ground organization

Likova

Tyler

2008

Exp Brain Res

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This is the accepted version of the paper.This version of the publication may differ from the final published version. Abstract To study the cortical mechanism of Wgure/ ground categorization in the human brain, we employed fMRI and the temporal-asynchrony paradigm. This paradigm is able to eliminate any diVerential activation for local stimulus features, and thus to identify only global perceptual interactions. Strong segmentation of the image into diVerent spatial conWgurations was generated solely from temporal asynchronies between zones of homogeneous dynamic noise. The Wgure/ground conWguration was a single geometric Wgure enclosed in a larger surround region. In a control condition, the Wgure/ground organization was eliminated by segmenting the noise Weld into many identical temporal-asynchrony stripes. The manipulation of the type of perceptual organization triggered dramatic reorganization in the cortical activation pattern. The Wgure/ground conWguration generated suppression of the ground representation (limited to early retinotopic visual cortex, V1 and V2) and strong activation in the motion complex hMT+/ V5+; conversely, both responses were abolished when the Wgure/ground organization was eliminated. These results suggest that Wgure/ground processing is mediated by topdown suppression of the ground representation in the earliest visual areas V1/V2 through a signal arising in the motion complex. We propose a model of a recurrent cortical architecture incorporating suppressive feedback that operates in a topographic manner, forming a Wgure/ground categorization network distinct from that for "pure" scene segmentation and thus underlying the perceptual organization of dynamic scenes into cognitively relevant components. Permanent repository link

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Neuropeptide Y polymorphism and alcohol consumption in middle‐aged men

et al. 2000

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Neuropeptide Y (NPY) plays an important role in the hypothalamic regulation of food intake and energy balance. According to recent findings in animals, NPY also seems to be a potent regulator of alcohol consumption. We used the recently identified Leu(7) to Pro(7) polymorphism in the signal peptide part of NPY to investigate whether the NPY system is associated with alcohol consumption in humans. The subjects (N = 889) were an ethnically homogeneous, nonselected population sample of middle-aged men from Eastern Finland. The gene variant producing Pro(7) substitution was associated with a 34% higher average alcohol consumption, even after adjustment for a number of covariates (P = 0.03). The proportion of heavy drinkers (over 230 g of ethanol/week) was also somewhat higher in this group (13.1% vs. 8.2%, P = 0.10). Our study provides the first evidence that alcohol preference in humans is likely to be regulated by the NPY system.

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The neurophysiology of figure-ground segregation in primary visual cortex

Cited by 842 publications

References 21 publications

The role of oscillatory brain activity in object processing and figure–ground segmentation in human vision

The role of oscillatory brain activity in object processing and figure–ground segmentation in human vision

Occipital network for figure/ground organization

Neuropeptide Y polymorphism and alcohol consumption in middle‐aged men

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