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Visual Cognition Volume 28, 2020 - Issue 5-8: Special Issue: Current perspectives on visual working memory
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Current perspectives on visual working memory

Theoretical distinction between functional states in working memory and their corresponding neural states

Mark G. StokesWellcome Centre for Integrative Neuroimaging and Department of Experimental Psychology, University of Oxford, Oxford, UKView further author information
,
Paul S. Muhle-KarbeWellcome Centre for Integrative Neuroimaging and Department of Experimental Psychology, University of Oxford, Oxford, UKView further author information
&
Nicholas E. MyersWellcome Centre for Integrative Neuroimaging and Department of Experimental Psychology, University of Oxford, Oxford, UKCorrespondence[email protected]
ORCID Iconhttps://orcid.org/0000-0001-5599-3044View further author information
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Pages 420-432 | Received 30 Mar 2020, Accepted 10 Sep 2020, Published online: 24 Sep 2020

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Christian N. L. Olivers & Stefan Van der Stigchel. (2020) Future steps in visual working memory research. Visual Cognition 28:5-8, pages 325-329.
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Articles from other publishers (18)

Damian Koevoet, Christoph Strauch, Stefan Van der Stigchel, Sebastiaan Mathôt & Marnix Naber. (2023) Revealing visual working memory operations with pupillometry: Encoding, maintenance, and prioritization. WIREs Cognitive Science.
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Zhen Chen, Qi Sun & Xinyu Li. (2022) Differences of resource allocation to active and passive states in visual working memory. Psychological Research 87:6, pages 1761-1767.
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Ziyuan Li & Qiang Liu. (2023) Spatial Configuration Effects on the Dissociation between Active and Latent States in Visual Working Memory. Behavioral Sciences 13:8, pages 636.
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Joshua P. Rhilinger, Chenlingxi Xu & Nathan S. Rose. (2023) Are irrelevant items actively deleted from visual working memory?: No evidence from repulsion and attraction effects in dual-retrocue tasks. Attention, Perception, & Psychophysics 85:5, pages 1499-1516.
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Stephanie Jeanneret, Lea M. Bartsch & Evie Vergauwe. (2023) To be or not to be relevant: Comparing short- and long-term consequences across working memory prioritization procedures. Attention, Perception, & Psychophysics 85:5, pages 1486-1498.
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Ying Fan & Huan Luo. (2023) Reactivating ordinal position information from auditory sequence memory in human brains. Cerebral Cortex 33:10, pages 5924-5936.
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Xinger Yu, Zhiheng Zhou, Stefanie I. Becker, Sage E.P. Boettcher & Joy J. Geng. (2023) Good-enough attentional guidance. Trends in Cognitive Sciences 27:4, pages 391-403.
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Layla Chadaporn Antaket & Yoshiki Kashimori. (2022) Neural Mechanisms of the Maintenance and Manipulation of Gustatory Working Memory in Orbitofrontal Cortex. Cognitive Computation 15:2, pages 373-391.
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Brian Earl. (2023) Humans, fish, spiders and bees inherited working memory and attention from their last common ancestor. Frontiers in Psychology 13.
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Guofang Ren, Nan Ma & Ming Lei. (2023) The facilitating effect of identical objects in visual working memory. Frontiers in Psychology 13.
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Chelsea Reichert PlaskaJefferson OrtegaBernard A. GomesTimothy M. Ellmore. (2022) Interhemispheric Connectivity Supports Load-Dependent Working Memory Maintenance for Complex Visual Stimuli. Brain Connectivity 12:10, pages 892-904.
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Frida A. B. Printzlau, Nicholas E. Myers, Sanjay G. Manohar & Mark G. Stokes. (2022) Neural Reinstatement Tracks Spread of Attention between Object Features in Working Memory. Journal of Cognitive Neuroscience 34:9, pages 1681-1701.
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Quan Wan, Jorge A. Menendez & Bradley R. Postle. (2022) Priority-based transformations of stimulus representation in visual working memory. PLOS Computational Biology 18:6, pages e1009062.
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Anna Heuer & Martin Rolfs. (2021) A direct comparison of attentional orienting to spatial and temporal positions in visual working memory. Psychonomic Bulletin & Review 29:1, pages 182-190.
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Stefan Pollmann & Werner X. Schneider. 2022. The Temporal Lobe. The Temporal Lobe 339 357 .
Ziyuan Li, Tengfei Liang & Qiang Liu. (2021) The storage resources of the active and passive states are independent in visual working memory. Cognition 217, pages 104911.
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Joao Barbosa, Diego Lozano-Soldevilla & Albert Compte. (2021) Pinging the brain with visual impulses reveals electrically active, not activity-silent, working memories. PLOS Biology 19:10, pages e3001436.
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Paul S. Muhle-Karbe, Nicholas E. Myers & Mark G. Stokes. (2021) A Hierarchy of Functional States in Working Memory. The Journal of Neuroscience 41:20, pages 4461-4475.
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