Computational cognition – Mikael Lundqvist's team

The computational cognition group is interested in the neural mechanisms underlying cognition. We study how neural dynamics support abilities such as temporarily keeping things in mind, planning or prioritizing sensory information. We have a theory-based approach where we deploy neural network simulations to build predictions that we then test in experimental data from human and animal models.

Publications
Funding
Staff and contact

Publications

Selected publications

Article: NATURE COMMUNICATIONS. 2023;14(1):1429
Working memory control dynamics follow principles of spatial computing.
Lundqvist M; Brincat SL; Rose J; Warden MR; Buschman TJ; Miller EK; Herman P
Article: PLOS COMPUTATIONAL BIOLOGY. 2022;18(1):e1009827
Traveling waves in the prefrontal cortex during working memory.
Bhattacharya S; Brincat SL; Lundqvist M; Miller EK
Article: PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA. 2020;117(49):31459-31469
Layer and rhythm specificity for predictive routing.
Bastos AM; Lundqvist M; Waite AS; Kopell N; Miller EK
Article: JOURNAL OF COGNITIVE NEUROSCIENCE. 2020;32(10):2024-2035
Preservation and Changes in Oscillatory Dynamics across the Cortical Hierarchy.
Lundqvist M; Bastos AM; Miller EK
Article: PLOS COMPUTATIONAL BIOLOGY. 2020;16(8):e1007659
Achieving stable dynamics in neural circuits.
Kozachkov L; Lundqvist M; Slotine J-J; Miller EK
Article: NATURE COMMUNICATIONS. 2018;9(1):394
Gamma and beta bursts during working memory readout suggest roles in its volitional control.
Lundqvist M; Herman P; Warden MR; Brincat SL; Miller EK
Article: NEURON. 2016;90(1):152-164
Gamma and Beta Bursts Underlie Working Memory.
Lundqvist M; Rose J; Herman P; Brincat SL; Buschman TJ; Miller EK
Article: JOURNAL OF COGNITIVE NEUROSCIENCE. 2011;23(10):3008-3020
Theta and gamma power increases and alpha/beta power decreases with memory load in an attractor network model.
Lundqvist M; Herman P; Lansner A

All publications from group members

Preprint: ELIFE SCIENCES PUBLICATIONS, LTD. 2026
Biophysically inspired mean-field model of neuronal populations driven by ion exchange mechanisms
Rabuffo G; Bandyopadhyay A; Calabrese C; Gudibanda K; Depannemaecker D; Takarabe LM; Chatterjee S; Saggio ML; Desroches M; Ivanov A; Linne M-L; Bernard C; Petkoski S; Jirsa VK
Article: CURRENT BIOLOGY. 2026;36(2):402-414.e5
Oscillatory control of cortical space as a computational dimension
Chen Z; Brincat SL; Lundqvist M; Loonis RF; Warden MR; Miller EK
Doctoral thesis: 2025
The brain rhythms of cognition : investigating the dynamics of cortical plasticity through behavioural analysis and MEG
Ericson J
Preprint: BIORXIV. 2025
Methodological determinants of signal quality in electrobulbogram recordings
Nordén F; Zanettin I; Olsson T; Arshamian A; Lundqvist M; Darki F; Lundström J
Article: NATURE COMMUNICATIONS. 2025;16(1):5381
Low frequency oscillations - neural correlates of stability and flexibility in cognition
Ericson J; Ruiz Ibanez N; Lundqvist M; Klingberg T
Article: JOURNAL OF NEUROSCIENCE. 2025;45(14):e1159242024
Smell the Label: Odors Influence Label Perception and Their Neural Processing
Schicker D; Khorisantono PA; Dervishi QR; Lim SXL; Saruco E; Pleger B; Schultz J; Ohla K; Freiherr J
Article: JOURNAL OF PHYSIOLOGY-LONDON. 2025;603(6):1607-1625
The pupillary respiratory-phase response: pupil size is smallest around inhalation onset and largest during exhalation
Schaefer M; Mathot S; Lundqvist M; Lundstrom JN; Arshamian A
Preprint: ELIFE SCIENCES PUBLICATIONS, LTD. 2025
Biophysically inspired mean-field model of neuronal populations driven by ion exchange mechanisms
Rabuffo G; Bandyopadhyay A; Calabrese C; Gudibanda K; Depannemaecker D; Takarabe LM; Saggio ML; Desroches M; Ivanov A; Linne M-L; Bernard C; Petkoski S; Jirsa VK
Preprint: ELIFE SCIENCES PUBLICATIONS, LTD. 2025
Biophysically inspired mean-field model of neuronal populations driven by ion exchange mechanisms
Rabuffo G; Bandyopadhyay A; Calabrese C; Gudibanda K; Depannemaecker D; Takarabe LM; Saggio ML; Desroches M; Ivanov A; Linne M-L; Bernard C; Petkoski S; Jirsa VK
Article: NATURE COMMUNICATIONS. 2024;15(1):8950
Distinct functions for beta and alpha bursts in gating of human working memory
Liljefors J; Almeida R; Rane G; Lundstrom JN; Herman P; Lundqvist M
Article: PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA. 2024;121(42):e2315160121
Propofol- mediated loss of consciousness disrupts predictive routing and local field phase modulation of neural activity
Xiong YS; Donoghue JA; Lundqvist M; Mahnke M; Major AJ; Brown EN; Miller EK; Bastos AM
Article: PLOS BIOLOGY. 2024;22(10):e3002849
The human olfactory bulb communicates perceived odor valence to the piriform cortex in the gamma band and receives a refined representation back in the beta band
Norden F; Iravani B; Schaefer M; Winter AL; Lundqvist M; Arshamian A; Lundstrom JN
Review: TRENDS IN COGNITIVE SCIENCES. 2024;28(7):662-676
Beta: bursts of cognition
Lundqvist M; Miller EK; Nordmark J; Liljefors J; Herman P
Article: SCIENTIFIC REPORTS. 2024;14(1):9921
Multiple group membership and executive function in a socioeconomically diverse sample.
Goto N; Kusumasondjaja S; Tjiptono F; Lim SXL; Shee D; Hatano A; Herachwati N; Schaefer A
Article: ENEURO. 2024;11(4):ENEURO.0153-23.2024
Differences in Discounting Behavior and Brain Responses for Food and Money Reward.
Markman M; Saruco E; Al-Bas S; Wang BA; Rose J; Ohla K; Xue Li Lim S; Schicker D; Freiherr J; Weygandt M; Rramani Q; Weber B; Schultz J; Pleger B
Preprint: RESEARCH SQUARE. 2024
Stability from subspace rotations and traveling waves
Miller E; Batabyal T; Brincat S; Donoghue J; Lundqvist M; Mahnke M
Preprint: BIORXIV. 2024
Contralateral delay activity during dynamic spatial updates in working memory
Chernik C; van den Berg R; Lundqvist M
Preprint: PSYARXIV. 2023
Revisiting the Neurocognitive Correlates of the Behavioral Inhibition and Activation Systems
Gloy K; Marzuki AA; Schaefer A; Jenkins M; de Vries IEJ; Phon-Amnuaisuk P; Lim S; Wong KY; Enge S; Michael L; Kühnel A; Depow GJ; Inzlicht M; de Mello VO; Arriaga P; Frade S; Jerónimo R; Garrison K; Wahlers J; Akin K; Tullett AM; McDonald C; Roy R; Smith HH; Marsh C; Schmidt E; Stewart R; Elimari N; Lafargue G; Johnson E; Chen K; Mushtaq F; Pavlov Y; Kandler C
Preprint: BIORXIV. 2023
Distinct Functions for Beta and Alpha Bursts in Gating of Human Working Memory
Liljefors J; Almeida R; Rane G; Lundström J; Herman P; Lundqvist M
Preprint: BIORXIV. 2023
The how, when, and what of odor valence communication between the olfactory bulb and piriform cortex
Nordén F; Iravani B; Schaefer M; Winter A; Lundqvist M; Lundqvist M; Arshamian A; Lundström J
Preprint: BIORXIV. 2023;BIORXIV
Propofol-mediated loss of consciousness disrupts predictive routing and local field phase modulation of neural activity.
Xiong YS; Donoghue JA; Lundqvist M; Mahnke M; Major AJ; Brown EN; Miller EK; Bastos AM
Article: NPJ SCIENCE OF LEARNING. 2023;8(1):12
A dual-process model for cognitive training
Ericson J; Klingberg T
Article: NATURE COMMUNICATIONS. 2023;14(1):1429
Working memory control dynamics follow principles of spatial computing.
Lundqvist M; Brincat SL; Rose J; Warden MR; Buschman TJ; Miller EK; Herman P
Article: FOOD QUALITY AND PREFERENCE. 2023;106:104808
Taste It! 7-Day exposure to a protein-enriched milk drink increases its smell, taste, and flavor familiarity and facilitates acquisition of taste familiarity of a novel protein drink
Schicker D; Rramani Q; Lim SXL; Saruco E; Pleger B; Weber B; Schultz J; Freiherr J; Ohla K
Preprint: BIORXIV. 2023
Emergence of distributed working memory in a human brain network model
Feng M; Bandyopadhyay A; Mejias J
Preprint: PSYARXIV. 2023
Error- and inhibitory-related brain activity associated with political ideology: A multi-site replication study
Marzuki AA; Gloy K; Kandler C; Phon-Amnuaisuk P; Jenkins M; Garrison K; Tullett AM; Wahlers J; Akin K; Arriaga P; Frade S; Jerónimo R; de Mello VO; Depow GJ; Inzlicht M; Enge S; Michael L; Kühnel A; McDonald C; Roy R; Marsh C; Smith HH; Elimari N; Lafargue G; Johnson E; Chen K; Liu Z-X; Schmidt E; Stewart R; Lim S; de Vries IEJ; Mushtaq F; Pavlov Y; Schaefer A
Book chapter: AUGMENTED COGNITION: LECTURE NOTES IN COMPUTER SCIENCE. 2023;p. 26-45
Mental Face Image Retrieval Based on a Closed-Loop Brain-Computer Interface
Rajabi N; Chernik C; Reichlin A; Taleb F; Vasco M; Ghadirzadeh A; Björkman M; Kragic D
Article: BRAIN AND BEHAVIOR. 2023;13(1):e2828
Nutrition claims influence expectations about food attributes, attenuate activity in reward-associated brain regions during tasting, but do not impact pleasantness.
Rramani Q; Barakat Y; Jacob G; Ohla K; Lim SXL; Schicker D; Freiherr J; Saruco E; Pleger B; Weber B; Schultz J
Article: PLOS COMPUTATIONAL BIOLOGY. 2022;18(12):e1010776
Robust and brain-like working memory through short-term synaptic plasticity
Kozachkov L; Tauber J; Lundqvist M; Brincat SL; Slotine J-J; Miller EK
Article: PROGRESS IN NEUROBIOLOGY. 2022;219:102372
Oscillations without cortex: Working memory modulates brainwaves in the endbrain of crows
Hahn LA; Balakhonov D; Lundqvist M; Nieder A; Rose J
Article: SCIENTIFIC REPORTS. 2022;12(1):15050
Reduced variability of bursting activity during working memory.
Lundqvist M; Rose J; Brincat SL; Warden MR; Buschman TJ; Herman P; Miller EK
Article: SCIENTIFIC REPORTS. 2022;12(1):8056
The capacity and organization of gustatory working memory.
Lim SXL; Höchenberger R; Ruda I; Fink GR; Viswanathan S; Ohla K
Journal article: PSYCHOPHYSIOLOGY. 2022;59(5):e13827
New methods for oscillation analyses push new theories of discrete cognition
Lundqvist M; Wutz A
Article: NUTRIENTS. 2022;14(6):1141
Associations between Taste and Smell Sensitivity, Preference and Quality of Life in Healthy Aging-The NutriAct Family Study Examinations (NFSE) Cohort
Lim SXL; Hoechenberger R; Busch NA; Bergmann M; Ohla K
Preprint: BIORXIV. 2022
Reduced variability of bursting activity during working memory
Lundqvist M; Rose J; Warden M; Buschman T; Herman P; Miller E
Journal article: VACCINES. 2022;10(2):301
Capturing a Crucial 'Disorder-to-Order Transition' at the Heart of the Coronavirus Molecular Pathology-Triggered by Highly Persistent, Interchangeable Salt-Bridges
Roy S; Ghosh P; Bandyopadhyay A; Basu S
Article: PLOS COMPUTATIONAL BIOLOGY. 2022;18(1):e1009827
Traveling waves in the prefrontal cortex during working memory.
Bhattacharya S; Brincat SL; Lundqvist M; Miller EK
Preprint: BIORXIV. 2021
Capturing a crucial ‘disorder-to-order transition’ at the heart of the coronavirus molecular pathology – triggered by highly persistent, interchangeable salt-bridges
Roy S; Ghosh P; Bandyopadhyay A; Basu S
Preprint: BIORXIV. 2021
Biophysically inspired mean-field model of neuronal populations driven by ion exchange mechanisms
Rabuffo G; Bandyopadhyay A; Bandyopadhyay A; Calabrese C; Gudibanda K; Depannemaecker D; Takarabe LM; Saggio ML; Desroches M; Ivanov A; Linne M-L; bernard C; Petkoski S; Jirsa V
Conference publication: 2021;00:8173-8179
Robust Feedback Motion Primitives for Exploration of Unknown Terrains
Chernik C; Tajvar P; Tumova J
Article: NEUROIMAGE. 2021;237:118130
Odor identity can be extracted from the reciprocal connectivity between olfactory bulb and piriform cortex in humans
Iravani B; Arshamian A; Lundqvist M; Kay LM; Wilson DA; Lundstrom JN
Article: ELIFE. 2021;10:e60824
Neural effects of propofol-induced unconsciousness and its reversal using thalamic stimulation.
Bastos AM; Donoghue JA; Brincat SL; Mahnke M; Yanar J; Correa J; Waite AS; Lundqvist M; Roy J; Brown EN; Miller EK
Preprint: BIORXIV. 2021
ODOR IDENTITY CAN BE EXTRACTED FROM THE RECIPROCAL CONNECTIVITY BETWEEN OLFACTORY BULB AND PIRIFORM CORTEX IN HUMANS
Iravani B; Arshamian A; Lundqvist M; Kay L; Wilson D; Lundström J
Article: NEURON. 2021;109(6):1055-1066.e4
Interhemispheric transfer of working memories.
Brincat SL; Donoghue JA; Mahnke MK; Kornblith S; Lundqvist M; Miller EK
Preprint: BIORXIV. 2021
Spatial computing for the control of working memory
Lundqvist M; Brincat SL; Rose J; Warden MR; Buschman T; Miller EK; Herman P
Article: PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA. 2020;117(49):31459-31469
Layer and rhythm specificity for predictive routing.
Bastos AM; Lundqvist M; Waite AS; Kopell N; Miller EK
Article: MOLECULAR PSYCHIATRY. 2020;25(11):3020-3033
Distinct brain structure and behavior related to ADHD and conduct disorder traits
Bayard F; Thunell CN; Abe C; Almeida R; Banaschewski T; Barker G; Bokde ALW; Bromberg U; Buechel C; Quinlan EB; Desrivieres S; Flor H; Frouin V; Garavan H; Gowland P; Heinz A; Ittermann B; Martinot J-L; Martinot M-LP; Nees F; Orfanos DP; Paus T; Poustka L; Conrod P; Stringaris A; Struve M; Penttila J; Kappel V; Grimmer Y; Fadai T; van Noort B; Smolka MN; Vetter NC; Walter H; Whelan R; Schumann G; Petrovic P
Journal article: BIOCHIMICA ET BIOPHYSICA ACTA-PROTEINS AND PROTEOMICS. 2020;1868(10):140474
Criticality in the conformational phase transition among self-similar groups in intrinsically disordered proteins: Probed by salt-bridge dynamics
Bandyopadhyay A; Basu S
Article: JOURNAL OF COGNITIVE NEUROSCIENCE. 2020;32(10):2024-2035
Preservation and Changes in Oscillatory Dynamics across the Cortical Hierarchy.
Lundqvist M; Bastos AM; Miller EK
Article: PLOS COMPUTATIONAL BIOLOGY. 2020;16(8):e1007659
Achieving stable dynamics in neural circuits.
Kozachkov L; Lundqvist M; Slotine J-J; Miller EK
Article: NEUROSCIENCE LETTERS. 2020;720:134759
How do Asians perceive Caucasian eyes? Electrophysiological correlates of perceiving racial differences from the eyes region of the face
Yong MH; Lim XL; Schaefer A
Journal article: SOFT COMPUTING. 2020;24(1):603-625
Graph coloring: a novel heuristic based on trailing path-properties, perspective and applications in structured networks
Bandyopadhyay A; Dhar AK; Basu S
Article: JOURNAL OF NEUROSCIENCE. 2019;39(42):8231-8238
Beta Oscillations in Working Memory, Executive Control of Movement and Thought, and Sensorimotor Function.
Schmidt R; Herrojo Ruiz M; Kilavik BE; Lundqvist M; Starr PA; Aron AR
Article: FRONTIERS IN INTEGRATIVE NEUROSCIENCE. 2019;13:19
Can Brain Waves Really Tell If a Product Will Be Purchased? Inferring Consumer Preferences From Single-Item Brain Potentials
Goto N; Lim XL; Shee D; Hatano A; Khong KW; Buratto LG; Watabe M; Schaefer A
Review: NEURON. 2018;100(2):463-475
Working Memory 2.0.
Miller EK; Lundqvist M; Bastos AM
Journal article: APPLIED MATHEMATICS AND COMPUTATION. 2018;333:194-212
Impact of network structure on synchronization of Hindmarsh-Rose neurons coupled in structured network
Bandyopadhyay A; Kar S
Article: JOURNAL OF NEUROSCIENCE. 2018;38(32):7013-7019
Working Memory: Delay Activity, Yes! Persistent Activity? Maybe Not.
Lundqvist M; Herman P; Miller EK
Journal article: APPLIED MATHEMATICS AND COMPUTATION. 2018;320:710-730
Coevolution of cooperation and network structure in social dilemmas in evolutionary dynamic complex network
Bandyopadhyay A; Kar S
Journal article: EXPERT SYSTEMS. 2018;35(1)
Evaluation and selection of medical tourism sites: A rough analytic hierarchy process based multi-attributive border approximation area comparison approach
Roy J; Chatterjee K; Bandyopadhyay A; Kar S
Article: EBIOMEDICINE. 2018;28:162-167
Genetic Variation in the Dopamine System Influences Intervention Outcome in Children with Cerebral Palsy
Heijtz RD; Almeida R; Eliasson AC; Forssberg H
Article: PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA. 2018;115(5):1117-1122
Laminar recordings in frontal cortex suggest distinct layers for maintenance and control of working memory.
Bastos AM; Loonis R; Kornblith S; Lundqvist M; Miller EK
Article: NATURE COMMUNICATIONS. 2018;9(1):394
Gamma and beta bursts during working memory readout suggest roles in its volitional control.
Lundqvist M; Herman P; Warden MR; Brincat SL; Miller EK
Article: BIOLOGICAL PSYCHOLOGY. 2017;128:11-20
Neural signals of selective attention are modulated by subjective preferences and buying decisions in a virtual shopping task
Goto N; Mushtaq F; Shee D; Lim XL; Mortazavi M; Watabe M; Schaefer A
Article: SCIENTIFIC REPORTS. 2017;7(1):9422
Intrinsic brain connectivity after partial sleep deprivation in young and older adults: results from the Stockholm Sleepy Brain study
Nilsonne G; Tamm S; Schwarz J; Almeida R; Fischer H; Kecklund G; Lekander M; Fransson P; Akerstedt T
Article: NEUROIMAGE. 2017;147:121-129
Metacognition of attention during tactile discrimination
Whitmarsh S; Oostenveld R; Almeida R; Lundqvist D
Article: JOURNAL OF COGNITIVE NEUROSCIENCE. 2016;28(10):1539-1552
Memory-reliant Post-error Slowing Is Associated with Successful Learning and Fronto-occipital Activity
Schiffler BC; Almeida R; Granqvist M; Bengtsson SL
Article: ALZHEIMERS RESEARCH & THERAPY. 2016;8(1):38
Regional tau deposition measured by [¹⁸F]THK5317 positron emission tomography is associated to cognition via glucose metabolism in Alzheimer's disease
Saint-Aubert L; Almkvist O; Chiotis K; Almeida R; Wall A; Nordberg A
Article: DEVELOPMENTAL COGNITIVE NEUROSCIENCE. 2016;20:43-51
Behavior and neuroimaging at baseline predict individual response to combined mathematical and working memory training in children
Nemmi F; Helander E; Helenius O; Almeida R; Hassler M; Rasanen P; Klingberg T
Article: NEURON. 2016;90(1):152-164
Gamma and Beta Bursts Underlie Working Memory.
Lundqvist M; Rose J; Herman P; Brincat SL; Buschman TJ; Miller EK
Article: JOURNAL OF NEUROPHYSIOLOGY. 2015;114(3):1806-1818
Neural circuit basis of visuo-spatial working memory precision: a computational and behavioral study
Almeida R; Barbosa J; Compte A
Article: NEUROIMAGE. 2015;112:225-231
Diurnal and seasonal variation of the brain serotonin system in healthy male subjects
Matheson GJ; Schain M; Almeida R; Lundberg J; Cselenyi Z; Borg J; Varrone A; Farde L; Cervenka S
Article: CEREBRAL CORTEX. 2014;24(9):2449-2463
Serotonin Regulates Performance Nonmonotonically in a Spatial Working Memory Network
Cano-Colino M; Almeida R; Gomez-Cabrero D; Artigas F; Compte A
Article: JOURNAL OF COGNITIVE NEUROSCIENCE. 2014;26(2):211-222
Trade-off between Capacity and Precision in Visuospatial Working Memory
Roggeman C; Klingberg T; Feenstra HEM; Compte A; Almeida R
Article: JOURNAL OF NEUROSCIENCE. 2014;34(5):1592-1598
Structural Maturation and Brain Activity Predict Future Working Memory Capacity during Childhood Development
Ullman H; Almeida R; Klingberg T
Article: PLOS ONE. 2014;9(10):e108590
Characterization and compensation of network-level anomalies in mixed-signal neuromorphic modeling platforms.
Petrovici MA; Vogginger B; Müller P; Breitwieser O; Lundqvist M; Muller L; Ehrlich M; Destexhe A; Lansner A; Schüffny R; Schemmel J; Meier K
Published conference paper: BRAIN RESEARCH. 2013;1536:68-87
Nested theta to gamma oscillations and precise spatiotemporal firing during memory retrieval in a simulated attractor network.
Herman PA; Lundqvist M; Lansner A
Article: JOURNAL OF NEUROSCIENCE. 2013;33(29):11817-11824
Effect of prestimulus alpha power, phase, and synchronization on stimulus detection rates in a biophysical attractor network model.
Lundqvist M; Herman P; Lansner A
Article: FRONTIERS IN INTEGRATIVE NEUROSCIENCE. 2013;7:71
Serotonergic modulation of spatial working memory: predictions from a computational network model
Cane-Celino M; Almeida R; Compte A
Article: PERSONALITY AND INDIVIDUAL DIFFERENCES. 2012;52(2):167-172
Proneness for psychological flow in everyday life: Associations with personality and intelligence
Ullen F; de Manzano O; Almeida R; Magnusson PKE; Pedersen NL; Nakamura J; Csikszentmihalyi M; Madison G
Article: JOURNAL OF COGNITIVE NEUROSCIENCE. 2011;23(10):3008-3020
Theta and gamma power increases and alpha/beta power decreases with memory load in an attractor network model.
Lundqvist M; Herman P; Lansner A
Article: BIOLOGICAL CYBERNETICS. 2011;104(4-5):263-296
A comprehensive workflow for general-purpose neural modeling with highly configurable neuromorphic hardware systems.
Brüderle D; Petrovici MA; Vogginger B; Ehrlich M; Pfeil T; Millner S; Grübl A; Wendt K; Müller E; Schwartz M-O; de Oliveira DH; Jeltsch S; Fieres J; Schilling M; Müller P; Breitwieser O; Petkov V; Muller L; Davison AP; Krishnamurthy P; Kremkow J; Lundqvist M; Muller E; Partzsch J; Scholze S; Zühl L; Mayr C; Destexhe A; Diesmann M; Potjans TC; Lansner A; Schüffny R; Schemmel J; Meier K
Article: PLOS COMPUTATIONAL BIOLOGY. 2010;6(6):e1000803
Bistable, irregular firing and population oscillations in a modular attractor memory network.
Lundqvist M; Compte A; Lansner A
Article: IBM JOURNAL OF RESEARCH AND DEVELOPMENT. 2008;52(1-2):31-41
Brain-scale simulation of the neocortex on the IBM Blue Gene/L supercomputer
Djurfeldt M; Lundqvist M; Johansson C; Rehn M; Ekeberg O; Lansner A
Article: NETWORK-COMPUTATION IN NEURAL SYSTEMS. 2006;17(3):253-276
Attractor dynamics in a modular network model of neocortex.
Lundqvist M; Rehn M; Djurfeldt M; Lansner A
Article: NEUROIMAGE. 2002;17(2):1065-1079
Modeling the link between functional Imaging and neuronal activity: Synaptic metabolic demand and spike rates
Almeida R; Stetter M
Article: HUMAN BRAIN MAPPING. 2002;16(1):24-35
Exact multivariate tests for brain imaging data
Almeida R; Ledberg A
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Funding

Grants

When memories collide: moving simultaneously active memory representations in mind
Swedish Research Council
1 January 2023 - 31 December 2026
The flexible control over the contents of our working memory (WM) frees us from reflexive behavior and supports central cognitive behaviors such as planning and language comprehension. WM capacity is strongly correlated with individual intelligence and it is one of the most studied aspects of human cognition. A major limitation of previous research on visually related WM is that it has typically required experimental subjects to not move their heads or gaze to create a tightly controlled environment. In everyday life, however, gaze position constantly changes as we walk around, turn our heads, and make eye-movements. The focus of this project is to start mapping the mechanisms that underlie WM processes in real-life, dynamic environments. We will conduct a series of behavioral and EEG experiments that utilize instructed eye-movements while subjects use their WM. This will allow us to determine the impact of gaze shifts while maintaining the experimental control of classical WM experiments. We will simultaneously record behavior, EEG, and gaze shifts to allow direct inference. The goal is to understand how WM representations are transformed following gaze shifts to account for the new frame of reference, and how this impacts behavior. This will ultimately provide us with fundamental insights on how we update contents of WM to serve future behavior. The project will therefore provide important insights into the workings of working memory in real life scenarios.
The Hot-Coal hypothesis of working memory
European Research Council
1 June 2021 - 31 May 2026

Staff and contact

Group leader

Mikael Lundqvist
Principal Researcher
Telephone +46852483399
E-mail mikael.lundqvist@ki.se

All members of the group

Rita Almeida
Affiliated to Research
E-mail rita.almeida@ki.se
Abhirup Bandyopadhyay
Postdoctoral Researcher
E-mail abhirup.bandyopadhyay@ki.se
Charles Chernik
Phd Student
E-mail charles.chernik@ki.se
Julia Ericson
Postdoctoral Researcher
E-mail julia.ericson@ki.se
Johan Rafael Liljefors
Phd Student
E-mail johan.liljefors@ki.se
Shirley X. L. Lim
Postdoctoral Researcher
E-mail shirley.lim@ki.se
Francesca Nicchiotti
Research Assistant
E-mail francesca.nicchiotti@ki.se
Ronald van den Berg
Affiliated to Research
E-mail ronald.van.den.berg@ki.se