Brain and Cognitive Mechanisms of Top–Down Attentional Control in a Multisensory World: Benefits of Electrical Neuroimaging

Matusz, Paweł J.; Turoman, Nora; Tivadar, Ruxandra I.; Retsa, Chrysa; Murray, Micah M.

doi:10.1162/jocn_a_01360

Cited by 20 publications

(30 citation statements)

References 99 publications

(123 reference statements)

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“…We have recently shown that combining the added benefits of EN measures and wellunderstood EEG correlates of cognitive processes allows for distinguishing between different cognitive accounts of multisensory attentional control (Matusz et al 2019b).…”

Section: The Present Studymentioning

confidence: 99%

“…In an EN framework, such differences would be readily detected as GFP differences between experimental conditions over the N2pc time-window (for more info on how GFP can grasp differences in the brain mechanisms behind the N2pc, see Matusz et al 2019b).…”

Section: Data Analysis Designmentioning

confidence: 99%

“…We then submitted each age group's 4 averages to separate 2 x 2 repeated- henceforth) in the group-averaged mirrored difference ERPs data in the time-interval following cue onset. Briefly, the TAAHC produces, in a series of iterative steps, configurations of clusters that explain certain amounts of global explained variance (GEV) in the ERP data (for a more detailed explanation see Matusz et al 2019b;Murray et al, 2008). The optimal configuration of clusters is the smallest number of template maps accounting for the largest amount of variance in the grand-averaged electrophysiological responses.…”

Section: Data Analysis Designmentioning

confidence: 99%

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The development of attentional control mechanisms in multisensory environments

Turoman

Tivadar

Retsa

et al. 2020

Preprint

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AbstractAttentional control outside of the laboratory operates in multisensory settings, but the development of mechanisms subserving such control remains poorly understood. We investigated when, over the course of childhood, adult-like attentional control mechanisms begin to emerge. Children aged five, seven, and nine were compared with adults on behavioural performance in a computer game-like multisensory spatial cueing task, while simultaneous 129-channel EEG was recorded. Markers of attentional control were behavioural spatial cueing effects and the N2pc ERP component (analysed both traditionally and using a novel, multivariate electrical neuroimaging framework). In behaviour, adult-like visual attentional control was present from age 7 onwards, whereas multisensory control was not seen in children. In EEG, multivariate analyses of the activity over the N2pc time-window, revealed stable patterns of brain activity in children. Adult activity patterns linked to visual attentional control were present age 7 onwards, mirroring behaviour. Activity patterns linked to multisensory control were found in 9-year-olds, even though such patterns were not noted in behaviour. By combining rigorous yet naturalistic paradigms with multivariate signal analyses, we provided new insights into the development of visual attentional control skills vis-à-vis multisensory attentional control, thus generating a more complete account of attentional development.HighlightsBehaviourally, visual attentional control, as measured by task-set contingent attentional capture, was found to reach an adult-like state as early as age 7Behaviourally, attentional enhancement from multisensory stimuli was not found in 9-year-olds, but their EEG topographic patterns were different for multisensory vs. purely visual distractorsTraditional visual attentional event-related analyses, such as the N2pc, are not sensitive to detect attentional enhancement for multisensory objects in adults, and visual or multisensory attention in childrenSensitive, multivariate analyses of the event-related potential signal, such as electrical neuroimaging, are adept at revealing the neural underpinnings of attentional control processes over development

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Section: The Present Studymentioning

confidence: 99%

Section: Data Analysis Designmentioning

confidence: 99%

Section: Data Analysis Designmentioning

confidence: 99%

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The development of attentional control mechanisms in multisensory environments

Turoman

Tivadar

Retsa

et al. 2020

Preprint

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“…For Cifar-10 and Cifar-100 experiments, ResNet-32, SENet-32, and WideResNet (28,10) are used as the basic structures, and the proposed "CE-unit" modules are embedded after specific convolutional layers. For comparison, SENet-32 only adds two SE-unit modules on the basis of ResNet-32 structure, and does not take the grouping convolution operation.…”

Section: Experiments and Resultsmentioning

confidence: 99%

“…The attention mechanism of simulated visual attention design can focus the computing power of the model on key tasks to avoid interference from the background environment. Attention models are usually divided into three types: bottom-up attention models [9], [10], top-down attention models [11], [12], top-down and bottom-up attention models [13], [14]. By simulating visual attention, the ITTI model [15] introduces attention mechanism for the first time and uses it for saliency detection tasks.…”

Section: Introductionmentioning

confidence: 99%

Channel Expansion Convolutional Network for Image Classification

2020

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With the continuous evolution of research on convolutional neural networks, it is an efficient and fashionable method to introduce attention mechanism into the convolutional structure. The channel attention designed in SENet has made a great contribution to the promotion of the attention convolution model. However, our research found that SENet focuses on certain feature channels rather than objects in the channels. It will simultaneously enhance or weaken the target objects and background information in a certain channel. On the basis of the channel attention convolution network, we first perform channel sorting and group convolution on the feature map, and expand each group to β times the original feature channel during the group convolution process to construct a channel expansion convolution network (CENet), where β is an array used to represent the channel expansion coefficient. CENet captures the attention of objects in the feature channel while expanding the proportion of features in the relatively important channel. Furthermore, we improved the structure of CENet and merged it into the intra-layer multi-scale convolutional model to construct an object-level attention multi-scale convolutional neural network (OAMS-CNN). We have conducted a large number of experiments on four data sets, CIFAR-10, CIFAR-100, FGVC-Aircraft and Stanford Cars. The experimental results show that our proposed new object-level attention convolution model has achieved good image classification results. INDEX TERMS Channel expansion network, object-level attention CNN, multi-scale CNN, image classification.

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Context and attention control determine whether attending to competing information helps or hinders learning in school‐aged children

Markant

Amso

2021

WIRES Cognitive Science

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Attention control regulates efficient processing of goal‐relevant information by suppressing interference from irrelevant competing inputs while also flexibly allocating attention across relevant inputs according to task demands. Research has established that developing attention control skills promote effective learning by minimizing distractions from task‐irrelevant competing information. Additional research also suggests that competing contextual information can provide meaningful input for learning and should not always be ignored. Instead, attending to competing information that is relevant to task goals can facilitate and broaden the scope of children's learning. We review this past research examining effects of attending to task‐relevant and task‐irrelevant competing information on learning outcomes, focusing on relations between visual attention and learning in childhood. We then present a synthesis argument that complex interactions across learning goals, the contexts of learning environments and tasks, and developing attention control mechanisms will determine whether attending to competing information helps or hinders learning. This article is categorized under: Psychology > Attention Psychology > Learning Psychology > Development and Aging

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Brain and Cognitive Mechanisms of Top–Down Attentional Control in a Multisensory World: Benefits of Electrical Neuroimaging

Cited by 20 publications

References 99 publications

The development of attentional control mechanisms in multisensory environments

The development of attentional control mechanisms in multisensory environments

Channel Expansion Convolutional Network for Image Classification

Context and attention control determine whether attending to competing information helps or hinders learning in school‐aged children

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