| scholarly article | Q13442814 |
| P356 | DOI | 10.1152/JN.1995.73.2.836 |
| P698 | PubMed publication ID | 7760138 |
| P2093 | author name string | T J Ebner | |
| D Flament | |||
| Q G Fu | |||
| J D Coltz | |||
| P433 | issue | 2 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | primate | Q7380 |
| P304 | page(s) | 836-854 | |
| P577 | publication date | 1995-02-01 | |
| P1433 | published in | Journal of Neurophysiology | Q1709863 |
| P1476 | title | Temporal encoding of movement kinematics in the discharge of primate primary motor and premotor neurons. | |
| P478 | volume | 73 |
| Q33688724 | 14C-deoxyglucose mapping of the monkey brain during reaching to visual targets. |
| Q44671180 | A Bayesian approach for characterizing direction tuning curves in the supplementary motor area of behaving monkeys. |
| Q34346784 | A point process framework for relating neural spiking activity to spiking history, neural ensemble, and extrinsic covariate effects |
| Q48302302 | A role for the cerebellum in the control of limb movement velocity |
| Q48392952 | Activity in the supplementary motor area related to learning and performance during a sequential visuomotor task |
| Q52107272 | Adaptation to display rotation and display gain distortions during drawing. |
| Q30659149 | Advancing brain-machine interfaces: moving beyond linear state space models |
| Q37178668 | Advantages of closed-loop calibration in intracortical brain-computer interfaces for people with tetraplegia |
| Q30832728 | An Improved Unscented Kalman Filter Based Decoder for Cortical Brain-Machine Interfaces |
| Q30485302 | Central contributions to acoustic variation in birdsong |
| Q34461811 | Central processes for the multiparametric control of arm movements in primates |
| Q48391850 | Changes in the temporal pattern of primary motor cortex activity in a directional isometric force versus limb movement task |
| Q48914824 | Chapter 2 Comparative anatomy and physiology of the corticospinal system |
| Q41327018 | Characterization of neurons in the primate medial intraparietal area reveals a joint representation of intended reach direction and amplitude. |
| Q51991349 | Cognitive channels computing action distance and direction. |
| Q48236882 | Combined adaptiveness of specific motor cortical ensembles underlies learning. |
| Q90428822 | Condition-Dependent Neural Dimensions Progressively Shift during Reach to Grasp |
| Q37023579 | Control of velocity and position in single joint movements |
| Q41701600 | Cortical control of reaching movements |
| Q35650497 | Cortical correlates of fitts' law |
| Q33987050 | Cortical ensemble adaptation to represent velocity of an artificial actuator controlled by a brain-machine interface. |
| Q35037149 | Cortical frames of reference for eye-hand coordination |
| Q44746501 | Cortical involvement in the recruitment of wrist muscles |
| Q57471966 | Cortical population activity within a preserved neural manifold underlies multiple motor behaviors |
| Q34346797 | Cortical preparatory activity: representation of movement or first cog in a dynamical machine? |
| Q52166792 | Covariation of primate dorsal premotor cell activity with direction and amplitude during a memorized-delay reaching task. |
| Q35616622 | Decoding movement intent from human premotor cortex neurons for neural prosthetic applications |
| Q52045316 | Decoding neural spike trains: calculating the probability that a spike train and an external signal are related. |
| Q35118402 | Decoding position, velocity, or goal: does it matter for brain-machine interfaces? |
| Q48945426 | Descending corticospinal control of intersegmental dynamics. |
| Q48017044 | Developing a Nonstationary Computational Framework With Application to Modeling Dynamic Modulations in Neural Spiking Responses |
| Q48268851 | Differential contributions of vision and proprioception to movement accuracy |
| Q49137861 | Differential relation of discharge in primary motor cortex and premotor cortex to movements versus actively maintained postures during a reaching task |
| Q36980631 | Direct comparison of the task-dependent discharge of M1 in hand space and muscle space |
| Q33895205 | Direct cortical control of muscle activation in voluntary arm movements: a model |
| Q48204120 | Direct projections from the dorsal premotor cortex to the superior colliculus in the macaque (macaca mulatta). |
| Q35610234 | Direction and speed tuning of motor-cortex multi-unit activity and local field potentials during reaching movements. |
| Q35575420 | Dissociable contribution of the parietal and frontal cortex to coding movement direction and amplitude. |
| Q48742974 | Distributed sensitivity for movement amplitude in directionally tuned neuronal populations |
| Q35709337 | Dorsal premotor cortex: neural correlates of reach target decisions based on a color-location matching rule and conflicting sensory evidence |
| Q48392918 | Dynamical organization of directional tuning in the primate premotor and primary motor cortex |
| Q48764937 | Dynamics of single neuron activity in monkey primary motor cortex related to sensorimotor transformation. |
| Q47340598 | Early skill learning is expressed through selection and tuning of cortically represented muscle synergies. |
| Q53660205 | Effects of altering initial position on movement direction and extent. |
| Q48171877 | Encoding of movement fragments in the motor cortex. |
| Q34461824 | Extraction algorithms for cortical control of arm prosthetics |
| Q48392028 | Eye position effects on the neuronal activity of dorsal premotor cortex in the macaque monkey |
| Q44180566 | Eye-hand interactions differ in the human premotor and parietal cortices |
| Q36410324 | From the motor cortex to the movement and back again |
| Q89547823 | How does the CNS control arm reaching movements? Introducing a hierarchical nonlinear predictive control organization based on the idea of muscle synergies |
| Q90632173 | Indirect, referent control of motor actions underlies directional tuning of neurons |
| Q33608003 | Information about movement direction obtained from synchronous activity of motor cortical neurons |
| Q44619360 | Kinematic analysis of manual tracking in monkeys: characterization of movement intermittencies during a circular tracking task. |
| Q52071820 | Kinematic coordinates in which motor cortical cells encode movement direction. |
| Q58089198 | Latent Factors and Dynamics in Motor Cortex and Their Application to Brain-Machine Interfaces |
| Q52132654 | Limited functional grouping of neurons in the motor cortex hand area during individuated finger movements: A cluster analysis. |
| Q30660102 | Linking differences in action perception with differences in action execution |
| Q73726322 | Manual asymmetries in reaching movement control. I: Study of right-handers |
| Q48116482 | Modeling task-specific neuronal ensembles improves decoding of grasp |
| Q47148851 | Motor cortical activity changes during neuroprosthetic-controlled object interaction. |
| Q41702357 | Motor cortical activity during drawing movements: population representation during spiral tracing |
| Q48338787 | Motor cortical representation of hand translation and rotation during reaching. |
| Q33880245 | Motor cortical representation of speed and direction during reaching |
| Q36532599 | Motor imagery of hand actions: Decoding the content of motor imagery from brain activity in frontal and parietal motor areas |
| Q30460120 | Motor planning modulates sensory-motor control of collision avoidance behavior in the bullfrog, Rana catesbeiana |
| Q48376274 | Motor subcircuits mediating the control of movement velocity: a PET study |
| Q36595499 | Movement representation in the primary motor cortex and its contribution to generalizable EMG predictions |
| Q52088944 | Movement-related and preparatory activity in the reticulospinal system of the monkey. |
| Q38687458 | Multiple Coordinate Systems and Motor Strategies for Reaching Movements When Eye and Hand Are Dissociated in Depth and Direction |
| Q37179978 | Neostriatal Neuronal Activity Correlates Better with Movement Kinematics under Certain Rewards. |
| Q42174533 | Neural control of computer cursor velocity by decoding motor cortical spiking activity in humans with tetraplegia |
| Q48786655 | Neural correlates of a spatial sensory-to-motor transformation in primary motor cortex |
| Q48627254 | Neural mechanisms of movement speed and tau as revealed by magnetoencephalography. |
| Q48887249 | Neural representation of response category and motor parameters in monkey prefrontal cortex |
| Q48376751 | Neuronal activity related to the visual representation of arm movements in the lateral cerebellar cortex |
| Q48761238 | On the relations between single cell activity in the motor cortex and the direction and magnitude of three-dimensional dynamic isometric force |
| Q73035565 | One motor cortex, two different views |
| Q93940730 | One motor cortex, two different views |
| Q34328148 | Optimal feedback control and the neural basis of volitional motor control |
| Q36174122 | Overlapping representations for reach depth and direction in caudal superior parietal lobule of macaques |
| Q61445142 | Parieto-frontal mechanisms underlying observation of complex hand-object manipulation |
| Q49082635 | Partition of voluntary command to antagonist muscles during cyclic flexion-extension of the hand. |
| Q48276517 | Perspectives on classical controversies about the motor cortex |
| Q36470509 | Pharmacological modulation of plasticity in the human motor cortex |
| Q35476560 | Polarity of cortical electrical stimulation differentially affects neuronal activity of deep and superficial layers of rat motor cortex |
| Q35189604 | Predicting object size from hand kinematics: a temporal perspective. |
| Q31059410 | Predominance of Movement Speed Over Direction in Neuronal Population Signals of Motor Cortex: Intracranial EEG Data and A Simple Explanatory Model |
| Q46893348 | Preferential encoding of movement amplitude and speed in the primary motor cortex and cerebellum. |
| Q48786647 | Preferential representation of instructed target location versus limb trajectory in dorsal premotor area |
| Q48158946 | Prefrontal Neuronal Activity Encodes Spatial Target Representations Sequentially Updated After Nonspatial Target-Shift Cues |
| Q46782249 | Primary motor cortex tuning to intended movement kinematics in humans with tetraplegia. |
| Q48433879 | Primate red nucleus discharge encodes the dynamics of limb muscle activity |
| Q55034148 | Prior information in motor and premotor cortex: activity during the delay period and effect on pre-movement activity. |
| Q73019352 | Processing of multiple kinematic signals in the cerebellum and motor cortices |
| Q34198546 | Proprioception from a spinocerebellar perspective |
| Q48767902 | Purkinje cells signal hand shape and grasp force during reach-to-grasp in the monkey |
| Q48489926 | Rapid plasticity of human cortical movement representation induced by practice |
| Q52276285 | Reaching movements with similar hand paths but different arm orientations. I. Activity of individual cells in motor cortex. |
| Q48600654 | Reaching movements with similar hand paths but different arm orientations. II. Activity of individual cells in dorsal premotor cortex and parietal area 5. |
| Q45966345 | Redundant information encoding in primary motor cortex during natural and prosthetic motor control. |
| Q33804796 | Refinement of learned skilled movement representation in motor cortex deep output layer |
| Q34564889 | Relationship between speed and EEG activity during imagined and executed hand movements |
| Q48668359 | Relationship of cerebellar Purkinje cell simple spike discharge to movement kinematics in the monkey |
| Q37393368 | Reorganization between preparatory and movement population responses in motor cortex |
| Q73035561 | Reply to 'One motor cortex, two different views' |
| Q93940733 | Reply to 'One motor cortex, two different views' |
| Q93940735 | Reply to 'One motor cortex, two different views' |
| Q48623027 | Representation of multiple kinematic parameters of the cat hindlimb in spinocerebellar activity |
| Q47909436 | Representation of wrist joint kinematics by the ensemble of muscle spindles from synergistic muscles |
| Q36101388 | Reprogramming movements: extraction of motor intentions from cortical ensemble activity when movement goals change |
| Q38796681 | Role of human premotor dorsal region in learning a conditional visuomotor task |
| Q30496473 | Roles of monkey premotor neuron classes in movement preparation and execution |
| Q73731794 | Sensory representation of passive movement kinematics by rat's spinocerebellar Purkinje cells |
| Q42164525 | Sensory-guided motor tasks benefit from mental training based on serial prediction |
| Q37265845 | Signaling of grasp dimension and grasp force in dorsal premotor cortex and primary motor cortex neurons during reach to grasp in the monkey |
| Q48432582 | Single-unit activity related to bimanual arm movements in the primary and supplementary motor cortices |
| Q36017476 | Single-unit activity, threshold crossings, and local field potentials in motor cortex differentially encode reach kinematics. |
| Q48475245 | Spatial attention and memory versus motor preparation: premotor cortex involvement as revealed by fMRI. |
| Q48846632 | Spatial interference during bimanual coordination: differential brain networks associated with control of movement amplitude and direction |
| Q99631298 | Spatially and Temporally Distinct Encoding of Muscle and Kinematic Information in Rostral and Caudal Primary Motor Cortex |
| Q37329745 | Spatiotemporal Distribution of Location and Object Effects in Primary Motor Cortex Neurons during Reach-to-Grasp. |
| Q36390852 | Spatiotemporal distribution of location and object effects in reach-to-grasp kinematics |
| Q44588613 | Spatiotemporal tuning of motor cortical neurons for hand position and velocity |
| Q30540601 | State-based decoding of hand and finger kinematics using neuronal ensemble and LFP activity during dexterous reach-to-grasp movements |
| Q49088339 | Step-tracking movements of the wrist. IV. Muscle activity associated with movements in different directions |
| Q52087209 | Superlinear population encoding of dynamic hand trajectory in primary motor cortex. |
| Q52087584 | Target-, limb-, and context-dependent neural activity in the cingulate and supplementary motor areas of the monkey. |
| Q36182786 | Tensor Analysis Reveals Distinct Population Structure that Parallels the Different Computational Roles of Areas M1 and V1 |
| Q48451771 | The effect of target modality on visual and proprioceptive contributions to the control of movement distance. |
| Q35593737 | The emergence of single neurons in clinical neurology |
| Q87984098 | The ipsilateral corticospinal responses to cross-education are dependent upon the motor-training intervention |
| Q52031046 | The modulation of intermanual interactions during the specification of the directions of bimanual movements. |
| Q41972836 | The problem of parametric neural coding in the motor system |
| Q37024718 | The relationship between brain activity and peak grip force is modulated by corticospinal system integrity after subcortical stroke |
| Q37396255 | The roles of vision and proprioception in the planning of reaching movements |
| Q37463140 | The science of neural interface systems |
| Q48533911 | The time course of direction specification in brief interceptive actions |
| Q48502031 | Two mechanisms of protracted reaction times mediated by dissociable cortical networks |
| Q33482151 | Unscented Kalman filter for brain-machine interfaces. |
| Q51855878 | Velocity control in Parkinson's disease: a quantitative analysis of isochrony in scribbling movements. |
| Q48629236 | Visual receptive fields and movement fields of visuomovement neurons in the monkey premotor cortex obtained during a visually guided reaching task |
| Q41318667 | Visuomotor functions of the lateral pre-motor cortex |
| Q48276294 | Visuomotor processing as reflected in the directional discharge of premotor and primary motor cortex neurons |
| Q48302315 | Visuomotor transformations: early cortical mechanisms of reaching |
| Q41507169 | What features of visually guided arm movements are encoded in the simple spike discharge of cerebellar Purkinje cells? |
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