A PHYSIOLOGIST'S PERSPECTIVE ON ROBOTIC EXOSKELETONS FOR HUMAN LOCOMOTION
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Invariant ankle moment patterns when walking with and without a robotic ankle exoskeletonThe exoskeletons are here.Autonomous exoskeleton reduces metabolic cost of human walking during load carriage.An upper-limb power-assist exoskeleton using proportional myoelectric control.Robotic lower limb exoskeletons using proportional myoelectric controlSimulating ideal assistive devices to reduce the metabolic cost of walking with heavy loads.Invariant hip moment pattern while walking with a robotic hip exoskeleton.Future developments in brain-machine interface researchAcute Cardiorespiratory and Metabolic Responses During Exoskeleton-Assisted Walking Overground Among Persons with Chronic Spinal Cord Injury.Learning to walk with an adaptive gain proportional myoelectric controller for a robotic ankle exoskeleton.Biomechanical walking mechanisms underlying the metabolic reduction caused by an autonomous exoskeleton.The correlation between metabolic and individual leg mechanical power during walking at different slopes and velocitiesFrom neuromuscular activation to end-point locomotion: An artificial neural network-based technique for neural prosthesesA pneumatically powered knee-ankle-foot orthosis (KAFO) with myoelectric activation and inhibition.Anti-aging medicine: pitfalls and hopes.Biorobotics: using robots to emulate and investigate agile locomotion.Control entropy identifies differential changes in complexity of walking and running gait patterns with increasing speed in highly trained runners.Bilateral, Misalignment-Compensating, Full-DOF Hip Exoskeleton: Design and Kinematic Validation.Enhancing performance during inclined loaded walking with a powered ankle-foot exoskeleton.Bi-articular Knee-Ankle-Foot Exoskeleton Produces Higher Metabolic Cost Reduction than Weight-Matched Mono-articular Exoskeleton.Gastrocnemius Myoelectric Control of a Robotic Hip Exoskeleton Can Reduce the User's Lower-Limb Muscle Activities at Push Off.Lower-Limb Movement Assistance through Wearable Robots: State of the Art and ChallengesBra.Di.P.O. and P.I.G.R.O.: Innovative Devices for Motor Learning ProgramsA Review on Compliant Joint Mechanisms for Lower Limb Exoskeletons
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P2860
A PHYSIOLOGIST'S PERSPECTIVE ON ROBOTIC EXOSKELETONS FOR HUMAN LOCOMOTION
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2007 nî lūn-bûn
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2007 թուականի Սեպտեմբերին հրատարակուած գիտական յօդուած
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2007 թվականի սեպտեմբերին հրատարակված գիտական հոդված
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2007年の論文
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2007年論文
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2007年論文
@zh-hant
2007年論文
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2007年論文
@zh-mo
2007年論文
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2007年论文
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name
A PHYSIOLOGIST'S PERSPECTIVE ON ROBOTIC EXOSKELETONS FOR HUMAN LOCOMOTION
@ast
A PHYSIOLOGIST'S PERSPECTIVE ON ROBOTIC EXOSKELETONS FOR HUMAN LOCOMOTION
@en
A PHYSIOLOGIST'S PERSPECTIVE ON ROBOTIC EXOSKELETONS FOR HUMAN LOCOMOTION
@nl
type
label
A PHYSIOLOGIST'S PERSPECTIVE ON ROBOTIC EXOSKELETONS FOR HUMAN LOCOMOTION
@ast
A PHYSIOLOGIST'S PERSPECTIVE ON ROBOTIC EXOSKELETONS FOR HUMAN LOCOMOTION
@en
A PHYSIOLOGIST'S PERSPECTIVE ON ROBOTIC EXOSKELETONS FOR HUMAN LOCOMOTION
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prefLabel
A PHYSIOLOGIST'S PERSPECTIVE ON ROBOTIC EXOSKELETONS FOR HUMAN LOCOMOTION
@ast
A PHYSIOLOGIST'S PERSPECTIVE ON ROBOTIC EXOSKELETONS FOR HUMAN LOCOMOTION
@en
A PHYSIOLOGIST'S PERSPECTIVE ON ROBOTIC EXOSKELETONS FOR HUMAN LOCOMOTION
@nl
P2860
P1476
A PHYSIOLOGIST'S PERSPECTIVE ON ROBOTIC EXOSKELETONS FOR HUMAN LOCOMOTION
@en
P2093
Gregory S Sawicki
P2860
P304
P356
10.1142/S0219843607001138
P577
2007-09-01T00:00:00Z