Selecting and ignoring the component features of a visual object: A negative priming paradigm

Fanini, Alessandra; Nobre, Anna C.; Chelazzi, Leonardo

doi:10.1080/13506280500195367

Cited by 23 publications

(22 citation statements)

References 79 publications

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“…Similar findings have been found using a negativepriming paradigm (Fanini, Nobre, & Chelazzi, 2006;Frings & Wentura, 2006;Tipper, Weaver, & Houghton, 1994). The key finding in this paradigm is that responses to a target are especially slow if that object or feature had to be ignored in the previous trial.…”

Section: The Present Studysupporting

confidence: 80%

Space, object, and task selection

Lachter

Remington

Ruthruff

2009

Attention, Perception, & Psychophysics

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Section: The Present Studysupporting

confidence: 80%

Space, object, and task selection

Lachter

Remington

Ruthruff

2009

Attention, Perception, & Psychophysics

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“…For example, high perceptual load (increased task demands) is associated with reduced interference (Lavie, 1995), as is a temporal separation between distractor and target (Kahneman, Treisman & Burkell, 1983;Watson & Humphreys, 1997) and the peripheral (compared with foveal) presentation of distractors (Beck & Lavie, 2005). This is consistent with evidence that component features of visual objects such as colour, orientation, and direction of motion can be selected as well as inhibited differentially for attentional processing (for example, Fanini, Nobre & Chelazzi, 2006).…”

Section: Introductionsupporting

confidence: 71%

The impact of Degraded distractors on (Nondegraded) target identification

Kritikos

Pavlis

2007

Exp Brain Res

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“…These data indicate that strongly attending to one feature dimension may go along with the suppression of processing in another dimension, preventing the spreading of attention to other, irrelevant features of the selected object, and thereby increasing behavioral performance. Similar results on the suppression of non-attended object features have been obtained in several other studies (Cant et al 2008;Fanini et al 2006;Freeman et al 2014;Nobre et al 2006;Polk et al 2008;Serences et al 2009;Taya et al 2009;Xu 2010). As such, a possible reason for the different results on the taskdependency of MT responses is that in our experiments monkeys were more strongly focusing on the feature relevant for the current task block.…”

Section: Discussionsupporting

confidence: 89%

Task-specific, dimension-based attentional shaping of motion processing in area MT

Schledde

Galashan

Przybyla

et al. 2016

Preprint

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Non-spatial selective attention is based on the notion that specific features or objects in the visual environment are effectively prioritized in cortical visual processing. Feature-based attention (FBA) in particular, is a well-studied process that dynamically and selectively enhances neurons preferentially processing the attended feature attribute (e.g. leftward motion). In everyday life, however, behavior may require high sensitivity for an entire feature dimension (e.g. motion). Yet, evidence for feature dimension-specific attentional modulation on a cellular level is lacking. We here investigate neuronal activity in macaque motion-selective medio-temporal area (MT) in an experimental setting requiring the monkeys to detect either a motion change or a color change. We hypothesized that neural activity in MT is enhanced if the task requires perceptual . CC-BY-NC-ND 4.0 International license not peer-reviewed) is the author/funder. It is made available under a The copyright holder for this preprint (which was . http://dx.doi.org/10.1101/058693 doi: bioRxiv preprint first posted online Jun. 13, 2016; -2-sensitivity to motion. Despite identical visual stimulation, we found that mean firing rates were higher in the motion task, and response variability and latency were lower as compared to the color task. This task-specific response modulation in the processing of visual motion was independent from the relation between attended and stimulating motion direction. It emerged already in the absence of visual input, and consisted of a spatially global and tuning-independent shift of the MT baseline activity. The results provide single cell support for the hypothesis of a feature dimension-specific top-down signal emphasizing the processing of an entire feature class.

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Selecting and ignoring the component features of a visual object: A negative priming paradigm

Cited by 23 publications

References 79 publications

Space, object, and task selection

Space, object, and task selection

The impact of Degraded distractors on (Nondegraded) target identification

Task-specific, dimension-based attentional shaping of motion processing in area MT

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