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Queensland Attention and Control Lab - Garner and Dux MRI Scan Dataset

The University of Queensland
Dr Kelly Garner (Aggregated by) Dr Kelly Garner (Aggregated by) Professor Paul Dux (Aggregated by) Professor Paul Dux (Aggregated by)
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ctx_ver=Z39.88-2004&rft_val_fmt=info%3Aofi%2Ffmt%3Akev%3Amtx%3Adc&rfr_id=info%3Asid%2FANDS&rft_id=https://espace.library.uq.edu.au/view/UQ:370251&rft.title=Queensland Attention and Control Lab - Garner and Dux MRI Scan Dataset&rft.publisher=The University of Queensland&rft.description=This is an fMRI dataset from the Queensland Attention and Control Lab in the School of Psychology based at The University of Queensland. The aim of the research was to investigate, through pre- and post-training MRI scanning, whether the brain adapts to be able to cope with multitasking. Negotiating the information-rich sensory world often requires the concurrent management of multiple tasks. Despite this, humans are thought to be poor at multitasking due to the processing limitations of frontoparietal and subcortical (FP-SC) brain regions. Although training is known to improve multitasking performance, it is unknown how the FP-SC system functionally changes to support improved multitasking. To address this, we characterized the FP-SC changes that predict training outcomes using an individual differences approach. Participants (N=100) performed single and multiple tasks in pre- and post-training magnetic resonance imaging (fMRI) sessions interspersed by either a multitasking or an active-control training regimen.&rft.creator=Dr Kelly Garner&rft.creator=Dr Kelly Garner&rft.creator=Professor Paul Dux&rft.creator=Professor Paul Dux&rft.date=2015&rft_rights=2015, The University of Queensland&rft_rights= https://guides.library.uq.edu.au/deposit-your-data/license-reuse-data-agreement&rft_subject=eng&rft_subject=fMRI&rft_subject=Multitasking&rft_subject=Attention&rft_subject=Frontoparietal-subcortical system&rft_subject=FP-SC system&rft_subject=Training&rft_subject=Psychology and neuroscience&rft_subject=NEUROSCIENCES&rft_subject=MEDICAL AND HEALTH SCIENCES&rft_subject=PSYCHOLOGY AND COGNITIVE SCIENCES&rft_subject=Neurocognitive Patterns and Neural Networks&rft_subject=COGNITIVE SCIENCE&rft_subject=Computer Perception, Memory and Attention&rft.type=dataset&rft.language=English Access the data
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p.dux@psy.uq.edu.au

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This is an fMRI dataset from the Queensland Attention and Control Lab in the School of Psychology based at The University of Queensland. The aim of the research was to investigate, through pre- and post-training MRI scanning, whether the brain adapts to be able to cope with multitasking. Negotiating the information-rich sensory world often requires the concurrent management of multiple tasks. Despite this, humans are thought to be poor at multitasking due to the processing limitations of frontoparietal and subcortical (FP-SC) brain regions. Although training is known to improve multitasking performance, it is unknown how the FP-SC system functionally changes to support improved multitasking. To address this, we characterized the FP-SC changes that predict training outcomes using an individual differences approach. Participants (N=100) performed single and multiple tasks in pre- and post-training magnetic resonance imaging (fMRI) sessions interspersed by either a multitasking or an active-control training regimen.

Issued: 2015

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Subjects
Attention | Cognitive Science | Computer Perception, Memory and Attention | FP-SC system | Frontoparietal-subcortical system | Medical and Health Sciences | Multitasking | Neurosciences | Neurocognitive Patterns and Neural Networks | Psychology and Cognitive Sciences | Psychology and neuroscience | Training | eng | fMRI |

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Other Information
Training conquers multitasking costs by dividing task representations in the frontoparietalsubcortical system

local : UQ:374558

Garner, K. G. and Dux, Paul E. (2015). Training conquers multitasking costs by dividing task representations in the frontoparietalsubcortical system. National Academy of Sciences. Proceedings, 112 (46), 14372-14377. doi: 10.1073/pnas.1511423112

Research Data Collections

local : UQ:289097

School of Psychology Publications

local : UQ:3852

Queensland Brain Institute Publications

local : UQ:23912

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