| scholarly article | Q13442814 |
| P2093 | author name string | A. B. Schwartz | |
| A. P. Georgopoulos | |||
| R. E. Kettner | |||
| P433 | issue | 8 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | primate | Q7380 |
| P304 | page(s) | 2913-2927 | |
| P577 | publication date | 1988-08-01 | |
| P1433 | published in | Journal of Neuroscience | Q1709864 |
| P1476 | title | Primate motor cortex and free arm movements to visual targets in three- dimensional space. I. Relations between single cell discharge and direction of movement | |
| P478 | volume | 8 |
| Q33688724 | 14C-deoxyglucose mapping of the monkey brain during reaching to visual targets. |
| Q21129463 | A Hebbian learning rule gives rise to mirror neurons and links them to control theoretic inverse models |
| Q92535503 | A Spike Train Distance Robust to Firing Rate Changes Based on the Earth Mover's Distance |
| Q48581044 | A dissociation of perception and action in normal human observers: the effect of temporal-delay |
| Q48819974 | A laterally interconnected neural architecture in MST accounts for psychophysical discrimination of complex motion patterns |
| Q36927907 | A multivariate method to determine the dimensionality of neural representation from population activity. |
| Q34101225 | A possible role of the superior colliculus in eye-hand coordination |
| Q38075389 | A primer on brain-machine interfaces, concepts, and technology: a key element in the future of functional neurorestoration |
| Q33740424 | A probabilistic strategy for understanding action selection |
| Q35180931 | A procedure for measuring latencies in brain-computer interfaces. |
| Q33587023 | A theory of geometric constraints on neural activity for natural three-dimensional movement |
| Q35093834 | A vector-integration-to-endpoint model for performance of viapoint movements |
| Q34323481 | Accuracy and learning in neuronal populations |
| Q48223752 | Accuracy of planar reaching movements. I. Independence of direction and extent variability |
| Q37178668 | Advantages of closed-loop calibration in intracortical brain-computer interfaces for people with tetraplegia |
| Q30746135 | An automatic experimental apparatus to study arm reaching in New World monkeys |
| Q72107938 | An electromyographic analysis of orofacial motor activities during trained tongue-protrusion and biting tasks in monkeys |
| Q48110045 | Apparatus for measuring and perturbing shoulder and elbow joint positions and torques during reaching |
| Q71720210 | Arm movements in monkeys: behavior and neurophysiology |
| Q36115932 | Behavioral and neural correlates of visuomotor adaptation observed through a brain-computer interface in primary motor cortex |
| Q41275434 | Biomechanics and neural control of movement, 20 years later: what have we learned and what has changed? |
| Q85217896 | Brain Computer Interface (BCI) Tools Developed in a Clinical Environment |
| Q37989956 | Brain-machine interfaces for motor control: a guide for neuroscience clinicians |
| Q48314254 | Cell directional spread determines accuracy, precision, and length of the neuronal population vector |
| Q34461811 | Central processes for the multiparametric control of arm movements in primates |
| Q48281000 | Cerebellar Purkinje cell simple spike discharge encodes movement velocity in primates during visuomotor arm tracking |
| Q41327018 | Characterization of neurons in the primate medial intraparietal area reveals a joint representation of intended reach direction and amplitude. |
| Q34425106 | Clinical detection and movement recognition of neuro signals |
| Q50800190 | Cognitive spatial-motor processes. 3. Motor cortical prediction of movement direction during an instructed delay period. |
| Q44658513 | Cognitive spatial-motor processes. 7. The making of movements at an angle from a stimulus direction: studies of motor cortical activity at the single cell and population levels |
| Q37593324 | Collaborative approach in the development of high-performance brain-computer interfaces for a neuroprosthetic arm: translation from animal models to human control |
| Q48236882 | Combined adaptiveness of specific motor cortical ensembles underlies learning. |
| Q47923547 | Commentary: Emergence of a Stable Cortical Map for Neuroprosthetic Control. |
| Q34192404 | Computational approaches to the architecture and operations of the prefrontal cortical circuit for working memory |
| Q37200119 | Computations Underlying the Execution of Movement: A Biological Perspective |
| Q48852473 | Constraints during bimanual coordination: the role of direction in relation to amplitude and force requirements |
| Q42692857 | Control of fast-reaching movements by muscle synergy combinations. |
| Q41328488 | Control of remembered reaching sequences in monkey. I. Activity during movement in motor and premotor cortex |
| Q47910555 | Conversion of sensory signals into motor commands in primary motor cortex. |
| Q41701600 | Cortical control of reaching movements |
| Q34098254 | Cortical motor areas and their properties: implications for neuroprosthetics |
| Q41661342 | Cortical networks for visual reaching |
| Q30485048 | Craniux: a LabVIEW-based modular software framework for brain-machine interface research |
| Q40617076 | Decoding neuronal firing and modelling neural networks |
| Q35118402 | Decoding position, velocity, or goal: does it matter for brain-machine interfaces? |
| Q48945426 | Descending corticospinal control of intersegmental dynamics. |
| Q48406121 | Detection of onset of neuronal activity by allowing for heterogeneity in the change points |
| 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 |
| Q48800118 | Direction of action is represented in the ventral premotor cortex. |
| Q34081837 | Direction of movement is encoded in the human primary motor cortex |
| Q52669223 | Directional Reaching for Water as a Cortex-Dependent Behavioral Framework for Mice. |
| Q48396504 | Does the nervous system use equilibrium-point control to guide single and multiple joint movements? |
| Q48477582 | Dynamic cortical activity in the human brain reveals motor equivalence. |
| Q33574859 | Dynamic range adaptation in primary motor cortical populations |
| Q46375560 | Dynamic sculpting of directional tuning in the primate motor cortex during three-dimensional reaching. |
| Q48764937 | Dynamics of single neuron activity in monkey primary motor cortex related to sensorimotor transformation. |
| Q28275710 | Effects of hand movement path on motor cortical activity in awake, behaving rhesus monkeys |
| Q48366194 | Electrocorticographic (ECoG) correlates of human arm movements. |
| Q64970498 | Encoding of Serial Order in Working Memory: Neuronal Activity in Motor, Premotor, and Prefrontal Cortex during a Memory Scanning Task. |
| Q52201915 | Evolution of directional preferences in the supplementary eye field during acquisition of conditional oculomotor associations. |
| Q50662453 | Extracellular voltage threshold settings can be tuned for optimal encoding of movement and stimulus parameters. |
| Q34461824 | Extraction algorithms for cortical control of arm prosthetics |
| Q41432906 | Force and the motor cortex |
| Q41613264 | Force and the motor cortex |
| Q36751402 | Forward estimation of movement state in posterior parietal cortex |
| Q40494304 | Functional Organization of the Human Primary Motor Area: An Update on Current Concepts |
| Q37039613 | Functional network reorganization during learning in a brain-computer interface paradigm |
| Q36739661 | Heterogeneous neural coding of corrective movements in motor cortex |
| Q57284848 | Higher-Order, Multi-Featural Object Encoding by the Oculomotor System |
| Q91972868 | Inhibition of Long-Term Variability in Decoding Forelimb Trajectory Using Evolutionary Neural Networks With Error-Correction Learning |
| Q41812740 | Internal models engaged by brain-computer interface control |
| Q36921884 | Internal models for interpreting neural population activity during sensorimotor control. |
| Q58089198 | Latent Factors and Dynamics in Motor Cortex and Their Application to Brain-Machine Interfaces |
| Q34269368 | Latent inputs improve estimates of neural encoding in motor cortex. |
| Q36956994 | Learning a novel myoelectric-controlled interface task |
| Q41965770 | Learning an Internal Dynamics Model from Control Demonstration |
| Q34325489 | Learning with slight forgetting optimizes sensorimotor transformation in redundant motor systems |
| Q36837516 | Local shaping of function in the motor cortex: motor contrast, directional tuning. |
| Q38783611 | Making brain-machine interfaces robust to future neural variability |
| Q35865093 | Mapping of the preferred direction in the motor cortex. |
| Q41362494 | Mental transformations in the motor cortex. |
| Q39262612 | Mirror movements studied in a patient with Klippel-Feil syndrome |
| Q70221135 | Misdirections in slow goal-directed arm movements and pointer-setting tasks |
| Q36350842 | Modular organization of directionally tuned cells in the motor cortex: Is there a short-range order? |
| Q48343852 | Monkey motor cortex: movements, muscles, motoneurons and metrics |
| Q104691648 | Motion direction tuning in centre-surround suppression of contrast |
| Q47148851 | Motor cortical activity changes during neuroprosthetic-controlled object interaction. |
| Q48578125 | Motor cortical activity in a memorized delay task |
| Q30581092 | Motor cortical control of movement speed with implications for brain-machine interface control. |
| Q48338787 | Motor cortical representation of hand translation and rotation during reaching. |
| Q38110536 | Motor directional tuning across brain areas: directional resonance and the role of inhibition for directional accuracy. |
| Q35212958 | Motor learning through the combination of primitives |
| Q33588807 | Movement amplitude choice reaction time performance in Parkinson's disease may be independent of dopaminergic status |
| Q51967703 | Multi-unit recording of antennal mechano-sensitive units in the central complex of the cockroach, Blaberus discoidalis. |
| Q42482773 | Multiple Output Channels in the Basal Ganglia |
| Q36182782 | Neural Population Dynamics during Reaching Are Better Explained by a Dynamical System than Representational Tuning |
| Q34430514 | Neural Representation During Visually Guided Reaching in Macaque Posterior Parietal Cortex |
| Q41700343 | Neural Representation and Causal Models in Motor Cortex |
| Q48403176 | Neural activity related to reaching and grasping in rostral and caudal regions of rat motor cortex |
| Q48163180 | Neural coding of finger and wrist movements |
| Q42174533 | Neural control of computer cursor velocity by decoding motor cortical spiking activity in humans with tetraplegia |
| Q37458575 | Neural interface technology for rehabilitation: exploiting and promoting neuroplasticity |
| Q35126770 | Neural population codes |
| Q48162421 | Neural responses in motor cortex and area 7a to real and apparent motion |
| Q48117079 | Neuronal interactions improve cortical population coding of movement direction. |
| Q33649996 | Nonlinear modeling of neural population dynamics for hippocampal prostheses. |
| Q48217229 | Numerical study of coding of the movement direction by a population in the motor cortex |
| Q48761238 | On the relations between single cell activity in the motor cortex and the direction and magnitude of three-dimensional dynamic isometric force |
| Q52201220 | On the relations between single cell activity in the motor cortex and the direction and magnitude of three-dimensional static isometric force. |
| Q34236572 | Optimization of muscle activity for task-level goals predicts complex changes in limb forces across biomechanical contexts |
| Q35739486 | Overlapping neural networks for multiple motor engrams |
| Q40799008 | PMv Neuronal Firing May Be Driven by a Movement Command Trajectory within Multidimensional Gaussian Fields |
| Q37396239 | Past, present, and emerging principles in the neural encoding of movement |
| Q41828291 | Population coding in sparsely connected networks of noisy neurons |
| Q44825042 | Population coding of stimulus orientation by striate cortical cells |
| Q36738891 | Prediction of imagined single-joint movements in a person with high-level tetraplegia |
| Q36693900 | Primary motor cortex of the parkinsonian monkey: altered encoding of active movement |
| Q37029591 | Primary motor cortex reports efferent control of vibrissa motion on multiple timescales |
| Q48188419 | Probing Changes in Neural Interaction During Adaptation |
| Q73019352 | Processing of multiple kinematic signals in the cerebellum and motor cortices |
| Q27021648 | Progress towards biocompatible intracortical microelectrodes for neural interfacing applications |
| Q33733282 | Proximal intentional neglect: a case study |
| Q48457599 | Reaching in depth: hand position dominates over binocular eye position in the rostral superior parietal lobule |
| Q33538075 | Real-time decision fusion for multimodal neural prosthetic devices |
| Q35594424 | Recent advances in neural recording microsystems |
| Q33804796 | Refinement of learned skilled movement representation in motor cortex deep output layer |
| Q60143328 | Roles of primate spinal interneurons in preparation and execution of voluntary hand movement |
| Q70237527 | Shift of preferred directions of premotor cortical cells with arm movements performed across the workspace |
| Q48380136 | Short-term memory for reaching to visual targets: psychophysical evidence for body-centered reference frames. |
| Q33364725 | Spatial Navigation and the Central Complex: Sensory Acquisition, Orientation, and Motor Control |
| Q93077126 | Spinal cord neural interfacing in common marmosets (Callithrix jacchus) |
| Q48459808 | Spinocerebellar Purkinje cells and rat forelimb postures: a direction-dependent activity. |
| Q30475331 | Subject-specific muscle synergies in human balance control are consistent across different biomechanical contexts |
| Q49140286 | Synaptic linkages between red nucleus cells and limb muscles during a multi-joint motor task |
| Q36469717 | Testing the concurrent validity of a naturalistic upper extremity reaching task |
| Q48439740 | The 'Ideal Homunculus': decoding neural population signals. |
| Q30438964 | The activity in the contralateral primary motor cortex, dorsal premotor and supplementary motor area is modulated by performance gains |
| Q35593737 | The emergence of single neurons in clinical neurology |
| Q48221673 | The reaching task: evidence for vector arithmetic in the motor system? |
| Q49111500 | The relationship between curvature and velocity in two-dimensional smooth pursuit eye movements |
| Q48396495 | The representation of egocentric space in the posterior parietal cortex |
| Q46498651 | The role of sensory network dynamics in generating a motor program. |
| Q36562422 | Thinking in spatial terms: decoupling spatial representation from sensorimotor control in monkey posterior parietal areas 7a and LIP. |
| Q30489872 | Tool use and the distalization of the end-effector |
| Q48349016 | Transformations between visual and kinesthetic coordinate systems in reaches to remembered object locations and orientations |
| Q36029428 | Tuning Curves for Arm Posture Control in Motor Cortex Are Consistent with Random Connectivity |
| Q52891307 | Vector coding in slow goal-directed arm movements. |
| Q52375858 | Vector reconstruction from firing rates. |
| Q38978357 | Velocity neurons improve performance more than goal or position neurons do in a simulated closed-loop BCI arm-reaching task |
| Q35080537 | Virtual reality hardware and graphic display options for brain-machine interfaces |
| Q48302315 | Visuomotor transformations: early cortical mechanisms of reaching |
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