about
Internal and External Feedback Circuits for Skilled Forelimb MovementMajor remaining gaps in models of sensorimotor systemsWalknet, a bio-inspired controller for hexapod walking.Role of granule-cell transmission in memory trace of cerebellum-dependent optokinetic motor learning.A bi-hemispheric neuronal network model of the cerebellum with spontaneous climbing fiber firing produces asymmetrical motor learning during robot controlVestibuloocular reflex adaptation investigated with chronic motion-modulated electrical stimulation of semicircular canal afferents.Cortico-fugal output from visual cortex promotes plasticity of innate motor behaviourIllustrating cerebral function: the iconography of arrows.Computational study on monkey VOR adaptation and smooth pursuit based on the parallel control-pathway theory.Pathophysiology of pediatric movement disorders.Cerebellar contribution to saccades and gaze holding: a modeling approach.Biohybrid Control of General Linear Systems Using the Adaptive Filter Model of Cerebellum.Cerebellar contributions to reach adaptation and learning sensory consequences of action.Cerebellar Premotor Output Neurons Collateralize to Innervate the Cerebellar Cortex.Habit Learning by Naive Macaques Is Marked by Response Sharpening of Striatal Neurons Representing the Cost and Outcome of Acquired Action Sequences.Insect walking is based on a decentralized architecture revealing a simple and robust controller.Role of the olivo-cerebellar complex in motor learning and control.The changes in mGluR2 and mGluR7 expression in rat medial vestibular nucleus and flocculus following unilateral labyrinthectomyEffect on movement selection of an evolving sensory representation: a multiple controller model of skill acquisition.Evaluation of Teaching Signals for Motor Control in the Cerebellum during Real-World Robot Application.Nonvisual complex spike signals in the rabbit cerebellar flocculus.Error detection and representation in the olivo-cerebellar system.The Cerebellum: Adaptive Prediction for Movement and Cognition.Cerebellum as a forward but not inverse model in visuomotor adaptation task: a tDCS-based and modeling study.Impairment of Long-Term Plasticity of Cerebellar Purkinje Cells Eliminates the Effect of Anodal Direct Current Stimulation on Vestibulo-Ocular Reflex Habituation.Synergetic motor control paradigm for optimizing energy efficiency of multijoint reaching via tacit learningCerebellum-inspired neural network solution of the inverse kinematics problem.Integration of gravitational torques in cerebellar pathways allows for the dynamic inverse computation of vertical pointing movements of a robot arm.Forward models and state estimation in compensatory eye movements.Acute adaptation of the vestibuloocular reflex: signal processing by floccular and ventral parafloccular Purkinje cells.Dopamine responses comply with basic assumptions of formal learning theory.Spinocerebellar ataxia type 2 neurodegeneration differentially affects error-based and strategic-based visuomotor learning.Motor adaptation as a greedy optimization of error and effort.Role of the cerebellum in reaching movements in humans. II. A neural model of the intermediate cerebellum.Adaptive optimal control without weight transport.Daily visual stimulation in the critical period enhances multiple aspects of vision through BDNF-mediated pathways in the mouse retina.Sensory prediction errors drive cerebellum-dependent adaptation of reaching.Intersegmental dynamics are controlled by sequential anticipatory, error correction, and postural mechanisms.Plasticity of the vertical VOR: a system identification approach to localizing the adaptive sites.Functional properties of brain areas associated with motor execution and imagery.
P2860
Q27001125-5801A172-B056-47B2-B9BD-390069F51A12Q28088732-AB67E2B7-1E76-47F8-A2AE-C8272F130B62Q30449662-A76926AA-5A32-43EC-AEC0-3C946D561853Q30576065-E316DC58-8019-463D-B2BB-8DCC212FCE78Q30596928-977C7728-6582-4FEB-80F2-08DC288C03BCQ33656819-CE1F8E0A-E86C-4D15-B0E1-142ABD7F43FEQ33768952-536B7889-F0C8-4A44-81F9-171D72F56FE5Q34155330-C2BC06A2-6770-4B30-A55C-96C32ABB1599Q34585638-924A779E-0A03-416F-8300-954C36B0F1A0Q35292297-A031E247-5E84-4895-9D81-A58DD57CE9AFQ35603130-ECC0230A-AC5A-4FE4-9EB5-AB4C5A45AB41Q35866332-08A281D1-621E-474A-A302-84D626178D0AQ35889719-36DEABC7-FC27-4B85-AB72-BB32FF117B67Q35957545-D77C1F71-A6DF-466C-AF3B-A2B0AEC675EEQ36124143-1DB63279-C45A-4147-8FE1-6417E4F05390Q36674648-C6189365-6FD9-4AF7-86C8-62DE319F80CBQ36878318-51D7F1CB-C29D-4F5D-9BD9-7D4BB1E113A8Q37375532-06C0C88E-2B6C-4E37-897A-6BB75D953706Q37392387-BF4D3D88-65EB-4BBD-952E-0325602A1D8BQ37533716-186A8397-8C01-44BD-B144-EF7213D5E2D0Q37603764-0F6A8F2F-6FC4-4AC6-8A68-584CD46B84ADQ38084575-C7278D66-BED8-427C-B2F9-554884245FAAQ39225042-B786F144-7ACB-47AA-AD64-0C1E0B151691Q40169937-26CE8926-986D-41F8-B79C-B4B0E30EC9D1Q41222609-AA1CE522-65E3-4344-8531-5755DFD44A08Q41984168-911A7332-C322-4DD8-B200-5CC45FA672DBQ42130769-38870FC3-A0E4-4169-91EB-ECB676A7EA39Q42177576-4F103154-E8F8-4F1A-92C0-3671180C4744Q42687211-D2E56D6B-578A-4527-8C39-510AE3A77B41Q43607909-7C91E3D3-1F72-45C1-9547-7D6B98911608Q43673182-BD917215-EF3F-48D3-AB59-7AF19C87949FQ44825732-8F5EBE47-7E8E-4A34-BA61-1E085F6F7E00Q46114819-EB69E028-3994-4FAA-BCA2-42E69DD7D76AQ46404012-29C2F707-0BB6-4E34-AB3A-B3C813EF2692Q47324840-8851E40B-BFAD-4273-8619-92439B9ABE9AQ48097650-02AEE04D-446C-4945-A203-C727ACF82392Q48165542-47EA9988-E106-443A-8BAF-6F738F5345D4Q48258123-1E345F98-F790-43E6-855F-28687510435AQ48389539-053A163C-EDED-4771-A4B7-6C68947D877EQ48392976-965FAE64-DF17-4324-B192-894CB48E71F8
P2860
description
1992 nî lūn-bûn
@nan
1992 թուականի Նոյեմբերին հրատարակուած գիտական յօդուած
@hyw
1992 թվականի նոյեմբերին հրատարակված գիտական հոդված
@hy
1992年の論文
@ja
1992年論文
@yue
1992年論文
@zh-hant
1992年論文
@zh-hk
1992年論文
@zh-mo
1992年論文
@zh-tw
1992年论文
@wuu
name
The cerebellum and VOR/OKR learning models.
@ast
The cerebellum and VOR/OKR learning models.
@en
type
label
The cerebellum and VOR/OKR learning models.
@ast
The cerebellum and VOR/OKR learning models.
@en
prefLabel
The cerebellum and VOR/OKR learning models.
@ast
The cerebellum and VOR/OKR learning models.
@en
P1476
The cerebellum and VOR/OKR learning models.
@en
P304
P356
10.1016/0166-2236(92)90008-V
P577
1992-11-01T00:00:00Z