| scholarly article | Q13442814 |
| P2093 | author name string | S P Wise | |
| A R Mitz | |||
| S L Moody | |||
| K J Blomstrom | |||
| P433 | issue | 3 | |
| P304 | page(s) | 285-299 | |
| P577 | publication date | 1998-08-01 | |
| P1433 | published in | Experimental Brain Research | Q13358841 |
| P1476 | title | Changes in motor cortical activity during visuomotor adaptation | |
| P478 | volume | 121 |
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| Q51635410 | Acquisition and generalization of visuomotor transformations by nonhuman primates. |
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| Q47914998 | Action, observation or imitation of virtual hand movement affect differently regions of the mirror neuron system and the default mode network |
| Q37422249 | Adaptation to visuomotor rotation through interaction between posterior parietal and motor cortical areas |
| Q35560145 | Asymmetric generalization in adaptation to target displacement errors in humans and in a neural network model |
| Q36115932 | Behavioral and neural correlates of visuomotor adaptation observed through a brain-computer interface in primary motor cortex |
| Q51973351 | Brain oscillations control hand orthosis in a tetraplegic. |
| Q34461811 | Central processes for the multiparametric control of arm movements in primates |
| Q63930283 | Cerebral Changes during Performance of Overlearned Arbitrary Visuomotor Associations |
| Q48101283 | Classical conditioned learning using transcranial magnetic stimulation |
| Q48236882 | Combined adaptiveness of specific motor cortical ensembles underlies learning. |
| Q34323457 | Connectionist contributions to population coding in the motor cortex |
| Q57664552 | Consistent visuomotor adaptations and generalizations can be achieved through different rotations of robust motor modules |
| Q48442711 | Contributions of spatial working memory to visuomotor learning. |
| Q35650497 | Cortical correlates of fitts' law |
| Q35052786 | Cortical correlates of learning in monkeys adapting to a new dynamical environment |
| Q33987050 | Cortical ensemble adaptation to represent velocity of an artificial actuator controlled by a brain-machine interface. |
| Q33291112 | Cortical modulations increase in early sessions with brain-machine interface |
| Q92459184 | Corticocortical Systems Underlying High-Order Motor Control |
| Q26998650 | Creating new functional circuits for action via brain-machine interfaces |
| Q34796116 | Developing a new experimental system for an undergraduate laboratory exercise to teach theories of visuomotor learning |
| Q33400366 | Differences in context and feedback result in different trajectories and adaptation strategies in reaching |
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| Q38617990 | Disruption of M1 activity during performance plateau impairs consolidation of motor memories. |
| Q51633145 | Dorsal premotor areas of nonhuman primate: functional flexibility in time domain. |
| Q33574859 | Dynamic range adaptation in primary motor cortical populations |
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| Q50524383 | Eliminating Direction Specificity in Visuomotor Learning. |
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| Q30455035 | Enhanced locomotor adaptation aftereffect in the "broken escalator" phenomenon using anodal tDCS. |
| Q50546429 | Flexible adaptation to an artificial recurrent connection from muscle to peripheral nerve in man. |
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| Q35918036 | Generalization in vision and motor control |
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| Q48220422 | Impaired visuomotor generalization by inconsistent attentional contexts |
| Q45052652 | Improvements in the signal-to-noise ratio of motor cortex cells distinguish early versus late phases of motor skill learning. |
| Q47414615 | Instantaneous estimation of motor cortical neural encoding for online brain–machine interfaces |
| Q36921884 | Internal models for interpreting neural population activity during sensorimotor control. |
| Q92251820 | Intrinsic Variable Learning for Brain-Machine Interface Control by Human Anterior Intraparietal Cortex |
| Q52071820 | Kinematic coordinates in which motor cortical cells encode movement direction. |
| Q34269368 | Latent inputs improve estimates of neural encoding in motor cortex. |
| Q24796212 | Learning-induced improvement in encoding and decoding of specific movement directions by neurons in the primary motor cortex |
| Q38783611 | Making brain-machine interfaces robust to future neural variability |
| Q43148076 | Motor adaptation and generalization of reaching movements using motor primitives based on spatial coordinates |
| Q48757048 | Multi-compartment model can explain partial transfer of learning within the same limb between unimanual and bimanual reaching |
| Q30667690 | Multiple dynamic representations in the motor cortex during sensorimotor learning |
| Q48638867 | Multitasking of attention and memory functions in the primate prefrontal cortex |
| Q48392998 | Neural activity in primary motor and dorsal premotor cortex in reaching tasks with the contralateral versus ipsilateral arm. |
| Q33885114 | Neural aspects of cognitive motor control |
| Q36850503 | Neural correlates of learning and trajectory planning in the posterior parietal cortex. |
| Q34684032 | Neural correlates of reach errors |
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| Q48201066 | Neuronal activity in the supplementary motor area of monkeys adapting to a new dynamic environment |
| Q48136511 | Neuronal correlates of memory formation in motor cortex after adaptation to force field |
| Q48854409 | Neuronal correlates of motor performance and motor learning in the primary motor cortex of monkeys adapting to an external force field |
| Q35055660 | Online adaptation and over-trial learning in macaque visuomotor control |
| Q34328148 | Optimal feedback control and the neural basis of volitional motor control |
| Q51992337 | Optimizing a linear algorithm for real-time robotic control using chronic cortical ensemble recordings in monkeys. |
| Q36792205 | Plastic corticostriatal circuits for action learning: what's dopamine got to do with it? |
| Q48249578 | Preparatory activity in motor cortex reflects learning of local visuomotor skills |
| Q34343636 | Primary motor cortical discharge during force field adaptation reflects muscle-like dynamics |
| Q34988056 | Principles of neural ensemble physiology underlying the operation of brain-machine interfaces. |
| Q55034148 | Prior information in motor and premotor cortex: activity during the delay period and effect on pre-movement activity. |
| Q48163784 | Real-time control of a robot arm using simultaneously recorded neurons in the motor cortex |
| Q30436562 | Real-time dopamine measurement in awake monkeys |
| Q42209297 | Recasting brain-machine interface design from a physical control system perspective |
| Q47871552 | Reduction of single-neuron firing uncertainty by cortical ensembles during motor skill learning. |
| Q30519503 | Reversible large-scale modification of cortical networks during neuroprosthetic control |
| Q37138810 | Robustness of muscle synergies during visuomotor adaptation. |
| Q52562983 | Role of the primary motor and dorsal premotor cortices in the anticipation of forces during object lifting. |
| Q52163205 | Selective use of perceptual recalibration versus visuomotor skill acquisition. |
| Q30842695 | Sensorimotor adaptation: multiple forms of plasticity in motor circuits |
| Q33640857 | Sensorimotor training in virtual reality: a review |
| Q34200262 | Single neurons in M1 and premotor cortex directly reflect behavioral interference |
| Q90716653 | Somatosensory cortex participates in the consolidation of human motor memory |
| Q42073301 | Statistical Signal Processing and the Motor Cortex |
| Q35160550 | Statistical assessment of the stability of neural movement representations |
| Q37188779 | Stimulating the cerebellum affects visuomotor adaptation but not intermanual transfer of learning. |
| Q35593737 | The emergence of single neurons in clinical neurology |
| Q35749578 | The generalization of visuomotor learning to untrained movements and movement sequences based on movement vector and goal location remapping |
| Q51891904 | The neuronal basis of long-term sensorimotor learning. |
| Q48909194 | The role of the primary motor cortex in mental rotation: a TMS study. |
| Q45064620 | The temporal stability of visuomotor adaptation generalization |
| Q39020985 | Trial-by-Trial Motor Cortical Correlates of a Rapidly Adapting Visuomotor Internal Model |
| Q48392257 | Trial-to-trial variability of single cells in motor cortices is dynamically modified during visuomotor adaptation. |
| Q37146683 | Visuomotor discordance during visually-guided hand movement in virtual reality modulates sensorimotor cortical activity in healthy and hemiparetic subjects |
| Q37119501 | Visuomotor gain distortion alters online motor performance and enhances primary motor cortex excitability in patients with stroke. |
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