An efference copy which is modified by reafferent input.
about
Comparable ages for the independent origins of electrogenesis in African and South American weakly electric fishesSensorimotor recalibration depends on attribution of sensory prediction errors to internal causesCorollary discharge across the animal kingdomEvidence for a causal inverse model in an avian cortico-basal ganglia circuitSounds and beyond: multisensory and other non-auditory signals in the inferior colliculus.A reafferent and feed-forward model of song syntax generation in the Bengalese finchA history of spike-timing-dependent plasticityIdentification of a motor-to-auditory pathway important for vocal learning.Neural responses to one- and two-tone stimuli in the hearing organ of the dengue vector mosquitoHearing lips and seeing voices: how cortical areas supporting speech production mediate audiovisual speech perception.Coactivation of pre- and postsynaptic signaling mechanisms determines cell-specific spike-timing-dependent plasticity.The functions of the proprioceptors of the eye muscles.Spinal corollary discharge modulates motion sensing during vertebrate locomotion.Mere expectation to move causes attenuation of sensory signalsEarly vestibular processing does not discriminate active from passive self-motion if there is a discrepancy between predicted and actual proprioceptive feedbackSensory processing and corollary discharge effects in posterior caudal lobe Purkinje cells in a weakly electric mormyrid fish.'Motor cognition' - what is it and is the cerebellum involved?Timing actions to avoid refractoriness: a simple solution for streaming sensory signals.A corollary discharge mechanism modulates central auditory processing in singing crickets.Nonsynaptic regulation of sensory activity during movement in cockroaches.A role for mixed corollary discharge and proprioceptive signals in predicting the sensory consequences of movements.Signal processing in the vestibular system during active versus passive head movements.Plasticity of cerebellar Purkinje cells in behavioral training of body balance control.Cerebellar Premotor Output Neurons Collateralize to Innervate the Cerebellar Cortex.Storage of a sensory pattern by anti-Hebbian synaptic plasticity in an electric fishComputational principles of sensorimotor control that minimize uncertainty and variability.Coordination of the eyes and head during visual orientingInternal models and neural computation in the vestibular systemPredictability of visual perturbation during locomotion: implications for corrective efference copy signaling.Fish in the matrix: motor learning in a virtual world.Echoes on the motor network: how internal motor control structures afford sensory experience.Active sensing without efference copy: referent control of perception.A comparative approach to cerebellar function: insights from electrosensory systems.Perception of simulated local shapes using active and passive touch.Plastic corollary discharge predicts sensory consequences of movements in a cerebellum-like circuit.Cerebellum predicts the future motor state.A temporal basis for predicting the sensory consequences of motor commands in an electric fish.A Principle for Describing and Verifying Brain Mechanisms Using Ongoing Activity.The corollary discharge in humans is related to synchronous neural oscillations.Rapid whole brain imaging of neural activity in freely behaving larval zebrafish (Danio rerio).
P2860
Q21134590-F66BB9F4-00E2-4431-B7CA-9FE2FB2103B0Q27318133-8D8CB508-D1B2-49FD-9899-4E01FA7BC687Q28587745-3476527D-63C9-4F83-B3F6-A78F55CA719CQ28658268-A2DCD76E-AC6A-4297-B21C-6108A4C2D20CQ28710363-DF462937-1477-4A15-9E6B-91608BAA6B1FQ28741810-C475C21C-3B45-4850-8C58-899227E76C07Q28744240-40F47D52-1B06-4DD6-9B39-D0C04D4D11B4Q30010501-A9526E74-A4BD-4B36-A05F-9BC4F428A3E9Q30473785-786340BB-4DE2-494E-87B5-B902F9E83354Q30480664-F2FD1280-6E1F-400F-951D-2A97C75C66C3Q30480909-A9419162-4180-45C7-821D-0862EC52E771Q30499915-7A22CC24-1311-4655-8A21-B47C1FE4BB6FQ30664448-571F947D-C507-46D8-A9B0-26C64470DD66Q33358042-0013B274-33D7-4148-92EA-DB7D74B9E670Q33708249-3B212B6C-C10E-4FE9-8988-0B883DF19102Q33781538-BBEE5F5D-DEC6-4C5B-BBBC-51DEC4532660Q33895867-FEE6F5F9-3442-4E77-973B-6113DE6DFC79Q33971330-5EF2AFA8-F550-4075-9254-2AFDEF838BE2Q34182515-E8D1093C-B026-4D00-AC27-C7DDD645FF38Q34367435-B31E70A1-71A0-4BBC-B540-9032B5DF2428Q34573424-D75B8256-9897-485E-905D-C03CAC20A0D2Q35739988-245113CD-2BC0-487F-A672-FD30427DC260Q35916345-9B32A388-3258-44A1-85B4-7C79BDB1F66AQ35957545-B404DFE0-3737-493A-872C-447F516D9961Q36310133-3EE41D10-7A68-4C1D-98B1-A6F94CF13544Q36606657-27D7A610-8A48-4FB4-9F54-461592FED2B4Q37243859-2D7128A4-9A3A-461F-B9D0-F3649E254E92Q37638424-126C201D-DE14-4E68-B8CD-811EF8202A7BQ38062348-8ECF00E8-5EC4-474C-8AFE-573D88033A7CQ38077186-791B4E00-AF40-427F-A991-91073E0B587CQ38645261-007785B2-7929-4EEF-AFD3-C846B1778FDBQ38866183-75E2D405-35CA-4CA5-9F53-954C605A1E12Q38922737-6D1B3283-8AFE-44AA-BBAC-1E79F7232216Q39903948-E7931BC6-3708-4D1C-A9B0-4A29D6B3DB75Q39909138-A277225F-EBDB-47A3-9595-A989FDC53FB2Q40037106-8755BC3D-F140-4EF8-9CA3-AFA861B0E95CQ41140020-37383A19-F4DB-4500-86E1-0A51F91F6697Q41873861-2A5B19D4-DFD3-4FF0-81A0-88EC53CE8FB7Q42238182-1FCA1452-9375-42E1-9FBE-B60D81C6B6E7Q42379505-A140210F-E090-4848-935D-5CBBC6F9618A
P2860
An efference copy which is modified by reafferent input.
description
1981 nî lūn-bûn
@nan
1981年の論文
@ja
1981年学术文章
@wuu
1981年学术文章
@zh
1981年学术文章
@zh-cn
1981年学术文章
@zh-hans
1981年学术文章
@zh-my
1981年学术文章
@zh-sg
1981年學術文章
@yue
1981年學術文章
@zh-hant
name
An efference copy which is modified by reafferent input.
@en
An efference copy which is modified by reafferent input.
@nl
type
label
An efference copy which is modified by reafferent input.
@en
An efference copy which is modified by reafferent input.
@nl
prefLabel
An efference copy which is modified by reafferent input.
@en
An efference copy which is modified by reafferent input.
@nl
P356
P1433
P1476
An efference copy which is modified by reafferent input.
@en
P2093
P304
P356
10.1126/SCIENCE.7291985
P407
P577
1981-10-01T00:00:00Z