Continuous neuronal ensemble control of simulated arm reaching by a human with tetraplegia. - Wikidata - wikimedia - TriplyDB

Continuous neuronal ensemble control of simulated arm reaching by a human with tetraplegia.

Continuous neuronal ensemble control of simulated arm reaching by a human with tetraplegia.

http://www.wikidata.org/entity/Q30538064

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Reach and grasp by people with tetraplegia using a neurally controlled robotic arm.Decoding continuous limb movements from high-density epidural electrode arrays using custom spatial filters Advancing brain-machine interfaces: moving beyond linear state space models Improving brain-machine interface performance by decoding intended future movements.Real-time simulation of three-dimensional shoulder girdle and arm dynamics.Restoration of motor function following spinal cord injury via optimal control of intraspinal microstimulation: toward a next generation closed-loop neural prosthesis.Cursor control by Kalman filter with a non-invasive body-machine interface.The emergence of single neurons in clinical neurology.Guest editorial: Opportunities in rehabilitation research.Towards a circuit mechanism for movement tuning in motor cortex Assessment of brain-machine interfaces from the perspective of people with paralysis.Virtual typing by people with tetraplegia using a self-calibrating intracortical brain-computer interface.Prediction of imagined single-joint movements in a person with high-level tetraplegia.Somatosensory responses in a human motor cortex An implantable wireless neural interface for recording cortical circuit dynamics in moving primates.Functional priorities, assistive technology, and brain-computer interfaces after spinal cord injury Intra-day signal instabilities affect decoding performance in an intracortical neural interface system.Advantages of closed-loop calibration in intracortical brain-computer interfaces for people with tetraplegia.Twenty-five years of progress: the view from NIMH and NINDS Speaking and cognitive distractions during EEG-based brain control of a virtual neuroprosthesis-arm Multiunit Activity-Based Real-Time Limb-State Estimation from Dorsal Root Ganglion Recordings.Neural interfaces for the brain and spinal cord--restoring motor function.Sensors and decoding for intracortical brain computer interfaces.Personalized neuroprosthetics.Identifying Engineering, Clinical and Patient's Metrics for Evaluating and Quantifying Performance of Brain-Machine Interface (BMI) Systems.Restoration of reaching and grasping movements through brain-controlled muscle stimulation in a person with tetraplegia: a proof-of-concept demonstration.Reconstructing for joint angles on the shoulder and elbow from non-invasive electroencephalographic signals through electromyography.Decoding Finger Flexion from Band-Specific ECoG Signals in Humans.Static Versus Dynamic Decoding Algorithms in a Non-Invasive Body-Machine Interface.Workshops of the Sixth International Brain-Computer Interface Meeting: brain-computer interfaces past, present, and future.Brain-state classification and a dual-state decoder dramatically improve the control of cursor movement through a brain-machine interface.Dexterous Control of Seven Functional Hand Movements Using Cortically-Controlled Transcutaneous Muscle Stimulation in a Person With Tetraplegia.Feasibility of identifying the ideal locations for motor intention decoding using unimodal and multimodal classification at 7T-fMRI

P2860

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P2860

Continuous neuronal ensemble control of simulated arm reaching by a human with tetraplegia.

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D M Taylor

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P2860

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

Toward the restoration of hand use to a paralyzed monkey: brain-controlled functional electrical stimulation of forearm muscles

Neuronal ensemble control of prosthetic devices by a human with tetraplegia

Overcoming abnormal joint torque patterns in paretic upper extremities using triceps stimulation

Instant neural control of a movement signal.

Direct cortical control of 3D neuroprosthetic devices.

Cognitive control signals for neural prosthetics.

Active microelectronic neurosensor arrays for implantable brain communication interfaces.

A real-time, 3-D musculoskeletal model for dynamic simulation of arm movements.

A high-performance brain-computer interface.

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