Restoring natural sensory feedback in real-time bidirectional hand prostheses.
about
A Review of Control Strategies in Closed-Loop Neuroprosthetic SystemsReview of Brain-Machine Interfaces Used in Neural Prosthetics with New Perspective on Somatosensory Feedback through Method of Signal BreakdownLiterature Review on Needs of Upper Limb Prosthesis UsersControl of Prosthetic Hands via the Peripheral Nervous System.Control Capabilities of Myoelectric Robotic Prostheses by Hand Amputees: A Scientific Research and Market OverviewControl strategies for active lower extremity prosthetics and orthotics: a review.Anatomical Network Comparison of Human Upper and Lower, Newborn and Adult, and Normal and Abnormal Limbs, with Notes on Development, Pathology and Limb Serial Homology vs. Homoplasy"Messing with the mind": evolutionary challenges to human brain augmentationIntraneural stimulation elicits discrimination of textural features by artificial fingertip in intact and amputee humans.Human-Machine Interface for the Control of Multi-Function Systems Based on Electrocutaneous Menu: Application to Multi-Grasp Prosthetic Hands.Augmentation-related brain plasticityA robot hand testbed designed for enhancing embodiment and functional neurorehabilitation of body schema in subjects with upper limb impairment or loss.EMG Biofeedback for online predictive control of grasping force in a myoelectric prosthesis.Elective amputation and bionic substitution restore functional hand use after critical soft tissue injuries.Induced sensorimotor brain plasticity controls pain in phantom limb patients.Artificial spatiotemporal touch inputs reveal complementary decoding in neocortical neurons.Electromyography data for non-invasive naturally-controlled robotic hand prostheses.Adjacent regenerative peripheral nerve interfaces produce phase-antagonist signals during voluntary walking in rats.A 3D Computational Model of Transcutaneous Electrical Nerve Stimulation for Estimating Aβ Tactile Nerve Fiber Excitability.Upper extremity prosthesis user perspectives on unmet needs and innovative technology.Simulating tactile signals from the whole hand with millisecond precision.Acute human brain responses to intracortical microelectrode arrays: challenges and future prospectsIn vivo monitoring of glial scar proliferation on chronically implanted neural electrodes by fiber optical coherence tomography.A bio-hybrid tactile sensor incorporating living artificial skin and an impedance sensing array.Decoding upper limb residual muscle activity in severe chronic stroke.Decoding of human hand actions to handle missing limbs in neuroprosthetics.A reconfigurable visual-programming library for real-time closed-loop cellular electrophysiology.Autonomous Optimization of Targeted Stimulation of Neuronal NetworksImplantable neurotechnologies: bidirectional neural interfaces--applications and VLSI circuit implementations.Contact Pressure Level Indication Using Stepped Output Tactile SensorsMicrostimulation of the lumbar DRG recruits primary afferent neurons in localized regions of lower limb.Assessment of Myoelectric Controller Performance and Kinematic Behavior of a Novel Soft Synergy-Inspired Robotic Hand for Prosthetic ApplicationsDiscriminability of Single and Multichannel Intracortical Microstimulation within Somatosensory Cortex.Neural interfaces for somatosensory feedback: bringing life to a prosthesis.Soft implantable microelectrodes for future medicine: prosthetics, neural signal recording and neuromodulation.Reflections on the present and future of upper limb prostheses.Rodent model for assessing the long term safety and performance of peripheral nerve recording electrodes.Trends and Challenges in Neuroengineering: Toward "Intelligent" Neuroprostheses through Brain-"Brain Inspired Systems" Communication.Task-Specific Somatosensory Feedback via Cortical Stimulation in Humans.Toward a Proprioceptive Neural Interface that Mimics Natural Cortical Activity.
P2860
Q26741430-71745BEE-7A29-447A-889D-B6EDE1A6E56CQ26744588-DB20851D-B22F-49EC-8FA5-6BF237FA4976Q26744753-C08200AA-E4A8-4B93-BD29-B91038D787B7Q26752625-C47937B0-768A-4EFC-AD65-588384E3DECDQ26773163-843B88D8-6C32-4564-83AB-0D86AFD22A8BQ27022189-7A9214E0-E738-46C4-BC8E-9598992A3323Q28606573-8D09B591-0376-4779-9634-6AB98EA7C44FQ28655245-42121659-942B-4E38-8C79-2F1AAE4612D1Q30388019-3D819930-B09E-41C2-9A46-DED5FFE4C47AQ30408842-C20699F0-2A87-4228-A355-90F9E6A0B354Q30436064-2086C722-FC36-4CE0-B31A-9DE3F09B515EQ30620790-1B5B9CE4-C2FF-4E39-9D94-244AA54C8BD5Q30656096-32E56BB8-2EE6-44E7-A065-997B70EF4162Q30819760-959F284A-023F-4B57-B0DC-2A165AF3712EQ30827463-6E7F401B-F704-44DC-A148-3122BC435050Q30843883-D5AE3E9D-4C86-4995-B2FD-2DFA6F23D358Q30952255-17ADD462-8C7D-4189-8684-5EF5E9704AB9Q33601078-72B0E91F-8E9E-44F3-BF78-1360D9FF7C77Q33689813-A646220D-84BF-42BE-AC7D-D4F27F713AF8Q33901087-3E61C311-747E-48D4-8A74-690AD9F0C614Q33913656-DB477DA4-2567-4790-A2D6-EAA2A8267379Q33925633-232AB972-CC0E-489C-A275-7C73D37FCE00Q34071845-F6E50344-CF7D-4E2D-B7BA-A0C963A32C00Q34985039-A44B7E5F-84A5-4171-B991-7B09B38B14E3Q34994436-D3CDA12A-135D-459D-8300-9B45BFCBA165Q35124403-694E59AA-CA0D-4947-8652-35306A40CF18Q35686759-421EEABD-3492-44DE-8F08-3FE9C9048A76Q36100452-7E24ED1C-723F-47EA-9259-AC1CF648CF6CQ36823055-43816FF4-EF1B-4578-A33E-D5DB756AC7ACQ36851824-B6220AAE-D651-4865-A240-8D6AF1C32A41Q37127736-0F865487-A2B9-452B-9FF8-9C4671196434Q37342747-28E73282-88B9-4AE8-8621-8EA6B8E62862Q37464091-F7F1F4A5-A42A-4113-B409-C6E80A9ACB98Q38626936-42ED4B8F-B5D2-4EB3-8E39-9AEA5DEF69EDQ38739413-1A221895-2735-46D8-AA16-67DA9A779F8EQ38753982-F1974371-32CE-4585-B59F-55F921079AE9Q38785192-27E5CF78-E7FA-4871-8B71-44D0505CF43FQ38813224-A033781D-CD0F-4D15-8A5E-90ACB361B4AFQ38840592-46125749-F856-4574-AD64-6A1654708D09Q39062853-E66F7935-F3E5-4BCB-AAB6-1BDFE96B3B72
P2860
Restoring natural sensory feedback in real-time bidirectional hand prostheses.
description
2014 nî lūn-bûn
@nan
2014 թուականի Փետրուարին հրատարակուած գիտական յօդուած
@hyw
2014 թվականի փետրվարին հրատարակված գիտական հոդված
@hy
2014年の論文
@ja
2014年論文
@yue
2014年論文
@zh-hant
2014年論文
@zh-hk
2014年論文
@zh-mo
2014年論文
@zh-tw
2014年论文
@wuu
name
Restoring natural sensory feedback in real-time bidirectional hand prostheses.
@ast
Restoring natural sensory feedback in real-time bidirectional hand prostheses.
@en
Restoring natural sensory feedback in real-time bidirectional hand prostheses.
@nl
type
label
Restoring natural sensory feedback in real-time bidirectional hand prostheses.
@ast
Restoring natural sensory feedback in real-time bidirectional hand prostheses.
@en
Restoring natural sensory feedback in real-time bidirectional hand prostheses.
@nl
prefLabel
Restoring natural sensory feedback in real-time bidirectional hand prostheses.
@ast
Restoring natural sensory feedback in real-time bidirectional hand prostheses.
@en
Restoring natural sensory feedback in real-time bidirectional hand prostheses.
@nl
P2093
P2860
P50
P1476
Restoring natural sensory feedback in real-time bidirectional hand prostheses
@en
P2093
Christian Cipriani
Eduardo Fernandez
Francesco Maria Petrini
Giuseppe Granata
Jacopo Carpaneto
Jacopo Rigosa
Marco Bonizzato
Paolo Maria Rossini
Silvestro Micera
P2860
P304
P356
10.1126/SCITRANSLMED.3006820
P407
P50
P577
2014-02-01T00:00:00Z