The development of brain-machine interface neuroprosthetic devices
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Spinal cord injury: present and future therapeutic devices and prosthesesA bidirectional brain-machine interface algorithm that approximates arbitrary force-fieldsRobotic touch shifts perception of embodiment to a prosthesis in targeted reinnervation amputeesLong-term asynchronous decoding of arm motion using electrocorticographic signals in monkeys.A confidence metric for using neurobiological feedback in actor-critic reinforcement learning based brain-machine interfacesSimultaneous real-time monitoring of multiple cortical systems.Adjacent regenerative peripheral nerve interfaces produce phase-antagonist signals during voluntary walking in rats.Lower layers in the motor cortex are more effective targets for penetrating microelectrodes in cortical prostheses.Enhancing Nervous System Recovery through Neurobiologics, Neural Interface Training, and Neurorehabilitation.Recent advances in neural recording microsystems.Steering a tractor by means of an EMG-based human-machine interface.Application of hierarchical dissociated neural network in closed-loop hybrid system integrating biological and mechanical intelligence.Weighted phase lag index stability as an artifact resistant measure to detect cognitive EEG activity during locomotion.Subcortical neuronal ensembles: an analysis of motor task association, tremor, oscillations, and synchrony in human patientsFunctional priorities, assistive technology, and brain-computer interfaces after spinal cord injuryVirtual Partner Interaction (VPI): exploring novel behaviors via coordination dynamics.Evolution of brain-computer interface: action potentials, local field potentials and electrocorticogramsProgress and prospects in neurorehabilitation: clinical applications of stem cells and brain-computer interface for spinal cord lesions.Cochlear Implantation, Enhancements, Transhumanism and Posthumanism: Some Human Questions.The Evolution of Neuroprosthetic Interfaces.Biomarkers and Stimulation Algorithms for Adaptive Brain Stimulation.Nonlinear dynamical model based control of in vitro hippocampal output.A multi-command SSVEP-based BCI system based on single flickering frequency half-field steady-state visual stimulation.Surgical experimental neurotherapeutics.Social Robots, Brain Machine Interfaces and Neuro/Cognitive Enhancers: Three Emerging Science and Technology Products through the Lens of Technology Acceptance Theories, Models and FrameworksWho Needs to Fit in? Who Gets to Stand out? Communication Technologies Including Brain-Machine Interfaces Revealed from the Perspectives of Special Education School Teachers Through an Ableism Lens
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The development of brain-machine interface neuroprosthetic devices
description
article científic
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article scientifique
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articolo scientifico
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artigo científico
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bilimsel makale
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scientific article published on January 2008
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vedecký článok
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vetenskaplig artikel
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videnskabelig artikel
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vědecký článek
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name
The development of brain-machine interface neuroprosthetic devices
@en
The development of brain-machine interface neuroprosthetic devices.
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type
label
The development of brain-machine interface neuroprosthetic devices
@en
The development of brain-machine interface neuroprosthetic devices.
@nl
prefLabel
The development of brain-machine interface neuroprosthetic devices
@en
The development of brain-machine interface neuroprosthetic devices.
@nl
P2860
P1433
P1476
The development of brain-machine interface neuroprosthetic devices
@en
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Dennis A Turner
Parag G Patil
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P2888
P304
P356
10.1016/J.NURT.2007.11.002
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2008-01-01T00:00:00Z
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P6179
1003446164