Cognitive signals for brain-machine interfaces in posterior parietal cortex include continuous 3D trajectory commands. - Wikidata - awgldk - TriplyDB

Cognitive signals for brain-machine interfaces in posterior parietal cortex include continuous 3D trajectory commands.

Cognitive signals for brain-machine interfaces in posterior parietal cortex include continuous 3D trajectory commands.

http://www.wikidata.org/entity/Q30525847

about

Toward more versatile and intuitive cortical brain-machine interfaces Parietal neural prosthetic control of a computer cursor in a graphical-user-interface task.High-accuracy brain-machine interfaces using feedback information A bidirectional brain-machine interface algorithm that approximates arbitrary force-fields A brain-machine interface enables bimanual arm movements in monkeys.Rapid control and feedback rates enhance neuroprosthetic control Strategies to develop putative biomarkers to characterize the female phenotype with autism spectrum disorders.A real-time brain-machine interface combining motor target and trajectory intent using an optimal feedback control design.Prediction of hand trajectory from electrocorticography signals in primary motor cortex A cognitive neuroprosthetic that uses cortical stimulation for somatosensory feedback.Robust Brain-Machine Interface Design Using Optimal Feedback Control Modeling and Adaptive Point Process Filtering Spatiotemporal dynamics of online motor correction processing revealed by high-density electroencephalography.Toward Precision Psychiatry: Statistical Platform for the Personalized Characterization of Natural Behaviors Neural correlates of learning and trajectory planning in the posterior parietal cortex.Internal models for interpreting neural population activity during sensorimotor control.Neurophysiology. Decoding motor imagery from the posterior parietal cortex of a tetraplegic human Advantages of closed-loop calibration in intracortical brain-computer interfaces for people with tetraplegia.Optic ataxia: from Balint's syndrome to the parietal reach region.The challenge of understanding the brain: where we stand in 2015.Brain-computer interfaces for dissecting cognitive processes underlying sensorimotor control.Adaptive neuron-to-EMG decoder training for FES neuroprostheses.From Intention to Action: Hierarchical Sensorimotor Transformation in the Posterior Parietal Cortex(12).Are muscle synergies useful for neural control?Long-Range Temporal Correlations, Multifractality, and the Causal Relation between Neural Inputs and Movements.A unifying model of concurrent spatial and temporal modularity in muscle activity.Real-time decoding of covert attention in higher-order visual areas.Intentional signal in prefrontal cortex generalizes across different sensory modalities.Optimizing the learning rate for adaptive estimation of neural encoding models.Constraints on neural redundancy

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P2860

Cognitive signals for brain-machine interfaces in posterior parietal cortex include continuous 3D trajectory commands.

http://www.wikidata.org/entity/Q30525847

description

2012 nî lūn-bûn

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2012 թուականի Հոկտեմբերին հրատարակուած գիտական յօդուած

@hyw

2012 թվականի հոտեմբերին հրատարակված գիտական հոդված

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2012年の論文

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2012年論文

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2012年論文

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2012年論文

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2012年論文

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2012年論文

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2012年论文

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name

Cognitive signals for brain-ma ...... inuous 3D trajectory commands.

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Cognitive signals for brain-ma ...... inuous 3D trajectory commands.

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type

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Cognitive signals for brain-ma ...... inuous 3D trajectory commands.

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Cognitive signals for brain-ma ...... inuous 3D trajectory commands.

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Cognitive signals for brain-ma ...... inuous 3D trajectory commands.

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Cognitive signals for brain-ma ...... inuous 3D trajectory commands.

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PNAS.1215092109

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Proceedings of the National Academy of Sciences of the United States of America

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Cognitive signals for brain-ma ...... inuous 3D trajectory commands.

@en

P2093

Gerald E Loeb

http://www.w3.org/2001/XMLSchema#string

Grant H Mulliken

http://www.w3.org/2001/XMLSchema#string

Igor Fineman

http://www.w3.org/2001/XMLSchema#string

Markus Hauschild

http://www.w3.org/2001/XMLSchema#string

Richard A Andersen

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P2860

Learning to control a brain-machine interface for reaching and grasping by primates

Dorsal premotor neurons encode the relative position of the hand, eye, and goal during reach planning

Reach and grasp by people with tetraplegia using a neurally controlled robotic arm.

Neuronal ensemble control of prosthetic devices by a human with tetraplegia

Spatial reference frames of visual, vestibular, and multimodal heading signals in the dorsal subdivision of the medial superior temporal area.

The posterior parietal cortex encodes in parallel both goals for double-reach sequences.

Effects of visual stimulation on LFPs, spikes, and LFP-spike relations in PRR.

Coding of the reach vector in parietal area 5d.

A floating metal microelectrode array for chronic implantation.

Brain control of movement execution onset using local field potentials in posterior parietal cortex

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17075-17080

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scholarly article

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10.1073/PNAS.1215092109

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42

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109

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2012-10-01T00:00:00Z

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23027946

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3479517

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