Luminance-increment detection: Capacity-limited or not?

Müller, Hermann J.; Humphreys, Glyn W.

doi:10.1037/0096-1523.17.1.107

Cited by 105 publications

(143 citation statements)

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“…A posttarget mask also served as a probe to indicate the location at which a targetpresent/absent decision had to be made. This paradigm was similar to that used by both Downing (1988) and Muller & Humphreys (1991), with modifications to avoid possible confounds related to target localization, memory decay, and preferential maintenance/rehearsal of cued location information (Hawkins et al, 1990;Luck et aI., 1994). RT and A' were measured for target detections at each spatial location in all possible combinations of attended and unattended conditions.…”

Section: Methodsmentioning

confidence: 99%

“…Using methodology similar to Downing's (1988), Muller and Humphreys (1991) measured both d' and peA) in a luminance-increment detection task with fourand eight-location circular displays. Although the primary focus of their study was to investigate whether spatial cuing influenced perceptual sensitivity, they also addressed the gradient issue.…”

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confidence: 99%

“…Although RT and SD measures may, in fact, index different aspects of attention-related processing, thereby offering an explanation for the differences between RT and SD gradients, some recently formulated methodological concerns raise doubts about the accuracy of the attentional distributions in Downing's (1988) and Muller & Humphreys's (1991) studies. Specifically, Hawkins et al (1990) pointed out two problems relevant to the methodology of both studies.…”

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confidence: 99%

“…We also thank Steve Luck, Jon Hansen, and ClifKussmaul for their assistance, and to Art Kramer, Hermann Miiller, and two anonymous reviewers for helpful comments on an early version of this manuscript. The data from Experiment I were originally presented at the inaugural meeting of the Cognitive Neuroscience Society, San Francisco, March, 1994. opposed to unattended locations (e.g., Bashinski & Bacharach, 1980;Downing, 1988;Hawkins et al, 1990;Heinze & Mangun, 1995;Luck et al, 1994;Mangun & Hillyard, 1988;Muller & Humphreys, 1991).…”

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confidence: 99%

“…opposed to unattended locations (e.g., Bashinski & Bacharach, 1980;Downing, 1988;Hawkins et al, 1990;Heinze & Mangun, 1995;Luck et al, 1994;Mangun & Hillyard, 1988;Muller & Humphreys, 1991).…”

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Spatial distribution of visual attention: Perceptual sensitivity and response latency

Handy

Kingstone

Mangun

1996

Perception & Psychophysics

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Studies of the spatial distribution of visual attention have shown that attentional facilitation monotonically decreases in a graded fashion with increasing distance from an attended location. However, reaction time (RT) measures have typically shown broader gradients than have signal detection (SD) measures of perceptual sensitivity. It is not clear whether these differences have arisen because the stages of information processing indexed by RT measures are different from those indexed by SD measures, or whether these differences are due to methodological confounds in the SD studies. In the present set of experiments, the spatial distribution of attention was studied by using a luminance detection task in an endogenous cuing paradigm that was designed to permit accurate calculations of SD and RT measures for targets at cued and uncued locations. Subjects made target-present/absent decisions at one of six possible cued or uncued upper visual hemifield locations on each trial. The results from three experiments suggest that the differences between broad and focal attentionaldistributions are not the result of different stages of information processing indexed by RT measures as opposed to SD measures. Rather, the differing distributions appear to reflect variations in attentional allocation strategies induced by the perceptual requirements typical of RT paradigms as opposed to SD paradigms. These findings support numerous prior studies showing that spatial attention affects perceptual sensitivity and that the strategic allocation of attention is a highly flexible process.It has been well established that precuing covert spatial attention to a specific location in the visual field facilitates response performance for stimuli appearing at the cued location. Many studies have shown, for example, that reaction time (RT) is faster for events occurring at an attended spatial region than for events occurring at an unattended spatial region (e.g., Posner, 1978Posner, , 1980Posner, Snyder, & Davidson, 1980;Shulman, Sheehy, & Wilson, 1986;Shulman, Wilson, & Sheehy, 1985; see Klein, Kingstone, & Pontefract, 1992, for a recent review). Spatial attention has also been shown to improve detection and discrimination accuracy for events at attended as The authors are grateful to Rob Egly, Ray Klein, Amishi Jha, and Mado Proverbio for helpful discussions on portions of this work, and to Mike Gazzaniga and Steve Hillyard for advice and support. We also thank Steve Luck, Jon Hansen, and ClifKussmaul for their assistance, and to Art Kramer, Hermann Miiller, and two anonymous reviewers for helpful comments on an early version of this manuscript. The data from Experiment I were originally presented at the inaugural meeting of the Cognitive Neuroscience Society, San Francisco, March, 1994. opposed to unattended locations (e.g., Bashinski & Bacharach, 1980;Downing, 1988;Hawkins et al., 1990;Heinze & Mangun, 1995;Luck et al., 1994;Mangun & Hillyard, 1988;Muller & Humphreys, 1991).How attention is distributed across the visual field when d...

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Section: Methodsmentioning

confidence: 99%

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confidence: 99%

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confidence: 99%

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confidence: 99%

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confidence: 99%

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Spatial distribution of visual attention: Perceptual sensitivity and response latency

Handy

Kingstone

Mangun

1996

Perception & Psychophysics

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The Cuing of Attention to Visual Field Locations: Analysis with ERP Recordings

Hillyard¹,

Luck²,

Mangun³

1994

Cognitive Electrophysiology

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Orienting and alerting: effect of 24 h of prolonged wakefulness

et al. 2005

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It is well known that a decrease in vigilance can easily occur during 24 h of continuous wakefulness, but no study has assessed whether and in what way extended wakefulness might affect spatial orienting. In other words, it is not clear what happens when a subject has to orient his attention during a state of poor vigilance, resulting from sleep loss or sustained wakefulness. The aim of this study was to investigate this issue. Twelve right-handed male subjects participated in the experiment, which took place on two consecutive days. On the first day, in order to evaluate baseline orienting attention, the subjects performed a covert orienting task (in which the cue stimuli generated endogenous shifts of attention), lasting 20 min; on the second day, during 24 h of prolonged wakefulness, the same task was performed 12 times, about every 120 min, beginning at 10.00 a.m. Results showed an overall slowing of reaction time across the sessions, indicating a linear decrease of vigilance. However, this vigilance decrease did not seem to affect attention-orienting mechanisms, suggesting that the two systems are independent of each other.

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Luminance-increment detection: Capacity-limited or not?

Cited by 105 publications

References 40 publications

Spatial distribution of visual attention: Perceptual sensitivity and response latency

Spatial distribution of visual attention: Perceptual sensitivity and response latency

The Cuing of Attention to Visual Field Locations: Analysis with ERP Recordings

Orienting and alerting: effect of 24 h of prolonged wakefulness

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