Foveal visual acuity is worse and shows stronger contour interaction effects for contrast-modulated than luminance-modulated Cs

Hairol, Mohd Izzuddin; Formankiewicz, Monika A.; Waugh, Sarah J.

doi:10.1017/s0952523813000102

Cited by 7 publications

(8 citation statements)

References 52 publications

(208 reference statements)

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“…This asymmetry is of opposite polarity and may be due to feed-forward pooling, different to what is considered here for different stimuli viewed under binocular rivalry conditions. Our asymmetry findings are more in line with those of Schofield and Kingdom (2014) 28 and Hairol, Formankiewicz and Waugh (2013) 29 . Schofield and Kingdom 28 used an orientation grouping paradigm with 0.4 deg, circular patches of luminance, colour or texture (binary noise on a mean background) to assess their comparative strengths.…”

Section: Discussionsupporting

confidence: 92%

“…Hairol et al . 29 found stronger contour interaction effects when CM bars surrounded an LM C during visual acuity assessment, than vice versa, suggesting stronger feedback effects may occur from a second CM stage. Finally, for binocularly viewed gratings (2 c/deg constructed from two-dimensional binary noise), spatial tilt and contrast after-effects for CM gratings, measured after viewing LM gratings and vice versa, were found to be similar rather than asymmetric 30 .…”

Section: Discussionmentioning

confidence: 85%

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Levelt’s laws do not predict perception when luminance- and contrast-modulated stimuli compete during binocular rivalry

Skerswetat

Formankiewicz

Waugh

2018

Sci Rep

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Incompatible patterns viewed by each of the two eyes can provoke binocular rivalry, a competition of perception. Levelt’s first law predicts that a highly visible stimulus will predominate over a less visible stimulus during binocular rivalry. In a behavioural study, we made a counterintuitive observation: high visibility patterns do not always predominate over low visibility patterns. Our results show that none of Levelt’s binocular rivalry laws hold when luminance-modulated (LM) patterns compete with contrast-modulated (CM) patterns. We discuss visual saliency, asymmetric feedback, and a combination of both as potential mechanisms to explain the CM versus LM findings. Competing orthogonal LM stimuli do follow Levelt’s laws, whereas only the first two laws hold for competing CM stimuli. The current results provide strong psychophysical evidence for the existence of separate processing stages for LM and CM stimuli.

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Section: Discussionsupporting

confidence: 92%

Section: Discussionmentioning

confidence: 85%

Levelt’s laws do not predict perception when luminance- and contrast-modulated stimuli compete during binocular rivalry

Skerswetat

Formankiewicz

Waugh

2018

Sci Rep

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“…The stimuli were loaded on to the frame store memory of a VSG graphic card (Cambridge Research Systems) installed in the computer. Monitor calibration and gamma correction procedures were carried out every 3 to 6 months by using OptiCal photometer to avoid adjacent pixel nonlinearity ( Bertone et al , 2011 ; Hairol et al , 2013 ). In every session, the display monitor was turned on for at least 20 minutes to stabilise its luminance output before data collection commenced.…”

Section: Methodsmentioning

confidence: 99%

“…First-order or luminance-defined information is known to be processed by linear mechanisms through linear processing within the striate visual cortex (V1). Stimuli which portray variation in properties such as contrast, texture or orientation without any change in mean luminance are known as second-order stimuli ( Hairol et al , 2013 ; Sukumar & Waugh, 2007 ; Wong et al , 2001 ). Processing mechanisms of second-order stimuli are thought to be more complex, and occur in higher and more binocular areas of the visual cortex, than those of first-order stimuli ( e.g.…”

Section: Introductionmentioning

confidence: 99%

Visual acuity measured with luminance-modulated and contrast-modulated noise letter stimuli in young adults and adults above 50 years old

et al. 2016

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The human visual system is sensitive in detecting objects that have different luminance level from their background, known as first-order or luminance-modulated (LM) stimuli. We are also able to detect objects that have the same mean luminance as their background, only differing in contrast (or other attributes). Such objects are known as second-order or contrast-modulated (CM), stimuli. CM stimuli are thought to be processed in higher visual areas compared to LM stimuli, and may be more susceptible to ageing. We compared visual acuities (VA) of five healthy older adults (54.0±1.83 years old) and five healthy younger adults (25.4±1.29 years old) with LM and CM letters under monocular and binocular viewing. For monocular viewing, age had no effect on VA [F(1, 8)= 2.50, p> 0.05]. However, there was a significant main effect of age on VA under binocular viewing [F(1, 8)= 5.67, p< 0.05]. Binocular VA with CM letters in younger adults was approximately two lines better than that in older adults. For LM, binocular summation ratios were similar for older (1.16±0.21) and younger (1.15±0.06) adults. For CM, younger adults had higher binocular summation ratio (1.39±0.08) compared to older adults (1.12±0.09). Binocular viewing improved VA with LM letters for both groups similarly. However, in older adults, binocular viewing did not improve VA with CM letters as much as in younger adults. This could reflect a decline of higher visual areas due to ageing process, most likely higher than V1, which may be missed if measured with luminance-based stimuli alone.

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“…Apabila sesuatu rangsangan dikelilingi oleh objek yang lain, kebolehan seseorang untuk mengenal pasti objek tersebut merosot. Kesan ini berlaku untuk pelbagai jenis rangsangan seperti huruf, nombor dan gratings (Bouma 1970;Hairol et al 2015Hairol et al , 2013Strasburger et al 1991;Stuart & Burian 1962). Kesan kesesakan boleh bertambah dengan meningkatkan jumlah objek yang mengelilingi rangsangan tersebut (Felisberti et al 2005) dan kedudukan (esentrisiti) rangsangan yang menjauhi retina (Bouma 1970;Jacobs 1979) atau pun dengan mengurangkan jarak antara rangsangan dengan objek yang mengelilinginya (Flom et al 1963).…”

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Perbandingan Zon Interaksi Ruang Dua Dimensi Subjek Normal dan Ambliopia Anisometropik

Hairol¹,

Latif

Woi

et al. 2017

JSM

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Foveal visual acuity is worse and shows stronger contour interaction effects for contrast-modulated than luminance-modulated Cs

Cited by 7 publications

References 52 publications

Levelt’s laws do not predict perception when luminance- and contrast-modulated stimuli compete during binocular rivalry

Levelt’s laws do not predict perception when luminance- and contrast-modulated stimuli compete during binocular rivalry

Visual acuity measured with luminance-modulated and contrast-modulated noise letter stimuli in young adults and adults above 50 years old

Perbandingan Zon Interaksi Ruang Dua Dimensi Subjek Normal dan Ambliopia Anisometropik

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