sameAs
Free-energy and illusions: the cornsweet effectOptimizing experimental design for comparing models of brain functionAnterior insula coordinates hierarchical processing of tactile mismatch responsesMRI analysis of an inherited speech and language disorder: structural brain abnormalitiesEarly visual learning induces long-lasting connectivity changes during rest in the human brainPredicting IQ change from brain structure: a cross-validation studyComputational psychiatryNeural basis of an inherited speech and language disorder.Ten simple rules for dynamic causal modeling.The labile brain. I. Neuronal transients and nonlinear couplingBrain systems mediating aversive conditioning: an event-related fMRI studyAttention to action in Parkinson's disease: impaired effective connectivity among frontal cortical regionsA DCM for resting state fMRIWhere bottom-up meets top-down: neuronal interactions during perception and imageryAnterior prefrontal cortex mediates rule learning in humansThe dysconnection hypothesis (2016)Active inference and learningRepetition suppression and its contextual determinants in predictive codingActive Inference, homeostatic regulation and adaptive behavioural controlOn nodes and modes in resting state fMRIBayesian inferences about the self (and others): a reviewInformation and efficiency in the nervous system--a synthesisBrain responses in humans reveal ideal observer-like sensitivity to complex acoustic patternsRecognizing sequences of sequences.Cerebral hierarchies: predictive processing, precision and the pulvinarStatistical parametric maps in functional imaging: A general linear approachLife and Understanding: The Origins of "Understanding" in Self-Organizing Nervous Systems.An Integrative Tinnitus Model Based on Sensory Precision.Voxel-based morphometry--the methodsActivation of reward circuitry in human opiate addictsDynamic causal modellingDynamic representations and generative models of brain functionCerebral asymmetry and the effects of sex and handedness on brain structure: a voxel-based morphometric analysis of 465 normal adult human brainsA voxel-based morphometric study of ageing in 465 normal adult human brainsA theory of cortical responsesPrincipal component analysis learning algorithms: a neurobiological analysisNeural correlates of perceptual rivalry in the human brainComparing families of dynamic causal modelsDynamic causal models and physiological inference: a validation study using isoflurane anaesthesia in rodentsAlterations in brain connectivity underlying beta oscillations in Parkinsonism
P50
Q21129173-6f1261d5-44ae-ab43-59c2-9e9ce59ddfaaQ21145318-AD178D1C-2841-48CB-A86E-F96D8CDC8B50Q23992237-45ce02b8-42ac-268b-bc97-9443debf1969Q24292386-1ddd3628-486b-31f5-ea6f-2985ec4bc057Q24612737-b739b7c7-4382-6ec9-bf44-f6432be22904Q24612786-66cb31e4-43fc-e426-63ee-ef36914133f5Q24630331-6c945832-46d0-a3c5-6c50-ae1f92f405dcQ24643907-358a7b20-44d2-41d7-2732-5a081b4ad63fQ24645074-94a9c1ad-436f-610f-68d4-eace18eba98bQ24676352-c4f91189-49db-a10e-dd3d-59e15413b5deQ24843236-446b74a7-48b2-9414-2c8c-74863586acc5Q25002311-a58456aa-4e07-37e6-4ed0-532bc311698dQ25004269-1355feab-4a13-daeb-cf9d-81b7d93f4a7fQ25238800-034fd452-4723-7725-b2cd-f06c790f13c6Q25822462-606fe53f-4055-baa7-594e-9ddf05093b4aQ26741916-aeda752c-477c-54e0-40c4-325dd2a395d4Q26745445-04d0f24c-410a-da0a-7594-2b9272aeb8b0Q26767173-7d759d4a-4e27-9f06-20d4-8eec2c74271fQ26781262-eb7b31e2-4308-a275-7db1-48da6f628c3dQ26994153-298c7fb5-4bea-c525-a378-9841a8a1f20eQ27014721-9de65ab6-4335-19d9-f166-0d0c64ce57eeQ27026249-4986749c-46fa-7ae5-024a-726d50bd2f39Q27321856-f5492bdf-4265-7c0e-51b5-94f7090d3830Q27335455-7ec7c727-4e85-6cd1-23f7-955d7256ecaaQ27692681-EFADE21E-6A8F-49EE-BB56-F889450B4081Q27864122-5502d833-4893-492f-bf51-a6ed009d7b6bQ28066349-61d7d9b2-4858-4d21-f877-af6f13675897Q28078283-ea515ef1-4282-a1e0-e046-ab6047323338Q28138780-381d463a-4672-f255-396f-618d5fc42024Q28140274-530dfd7f-4724-d332-761b-4cacae87b2daQ28160135-917eaa36-4924-a200-fbeb-70e8039998fdQ28181164-2efb0a37-47bb-e030-95f5-be3f4b74949dQ28212882-95059B20-A12A-4B99-B65C-97D39A748937Q28214553-AEDD71A6-85CA-4E88-9E38-F3E9B8B77D92Q28254705-99F9CF5D-4B5C-4895-8AEC-BA81B59E292AQ28257526-0F22F01E-A6A8-42A4-B86A-4CA43C778416Q28274142-24209925-76CF-4A8B-9184-532D1CB46F58Q28473192-214EB1EE-D757-4B6A-B1EA-7F14CA5F56AFQ28476412-108D8612-C407-4CC0-B4D9-5DFBCEAF7479Q28476509-2F6768B6-5A82-4A80-BAF4-7E813C5CC6EA
P50
description
British neuroscientist
@en
britischer Neurowissenschaftler
@de
britisk hjerneforsker
@da
neurowetenschapper
@nl
name
Karl J. Friston
@ast
Karl J. Friston
@da
Karl J. Friston
@de
Karl J. Friston
@en
Karl J. Friston
@es
Karl J. Friston
@fo
Karl J. Friston
@fr
Karl J. Friston
@is
Karl J. Friston
@kl
Karl J. Friston
@nb
type
label
Karl J. Friston
@ast
Karl J. Friston
@da
Karl J. Friston
@de
Karl J. Friston
@en
Karl J. Friston
@es
Karl J. Friston
@fo
Karl J. Friston
@fr
Karl J. Friston
@is
Karl J. Friston
@kl
Karl J. Friston
@nb
altLabel
Friston KJ
@da
Friston KJ
@de
Friston KJ
@en
Friston, Karl J.
@en
K J Friston
@da
K J Friston
@de
K J Friston
@en
K J Friston
@fo
K J Friston
@fr
K J Friston
@is
prefLabel
Karl J. Friston
@ast
Karl J. Friston
@da
Karl J. Friston
@de
Karl J. Friston
@en
Karl J. Friston
@es
Karl J. Friston
@fo
Karl J. Friston
@fr
Karl J. Friston
@is
Karl J. Friston
@kl
Karl J. Friston
@nb