Motor modules of human locomotion: influence of EMG averaging, concatenation, and number of step cycles. - Wikidata - wikimedia - TriplyDB

Motor modules of human locomotion: influence of EMG averaging, concatenation, and number of step cycles.

Motor modules of human locomotion: influence of EMG averaging, concatenation, and number of step cycles.

http://www.wikidata.org/entity/Q39924221

about

Long-term training modifies the modular structure and organization of walking balance control Neuromuscular responses differ between slip-induced falls and recoveries in older adults Electromyography Data Processing Impacts Muscle Synergies during Gait for Unimpaired Children and Children with Cerebral Palsy.Experimental Muscle Pain Impairs the Synergistic Modular Control of Neck Muscles.Modular Control of Treadmill vs Overground Running.Muscle Synergies in Cycling after Incomplete Spinal Cord Injury: Correlation with Clinical Measures of Motor Function and Spasticity Neuromuscular adjustments of gait associated with unstable conditions Novel Methods to Enhance Precision and Reliability in Muscle Synergy Identification during Walking A Personalized Multi-Channel FES Controller Based on Muscle Synergies to Support Gait Rehabilitation after Stroke Distinct sets of locomotor modules control the speed and modes of human locomotion.Are Modular Activations Altered in Lower Limb Muscles of Persons with Multiple Sclerosis during Walking? Evidence from Muscle Synergies and Biomechanical Analysis Muscle recruitment and coordination with an ankle exoskeleton.Tuning of Muscle Synergies During Walking Along Rectilinear and Curvilinear Trajectories in Humans.On the Methodological Implications of Extracting Muscle Synergies from Human Locomotion.Dynamic motor control is associated with treatment outcomes for children with cerebral palsy.Editorial: Neuro-motor control and feed-forward models of locomotion in humans.Methodological Choices in Muscle Synergy Analysis Impact Differentiation of Physiological Characteristics Following Stroke.Motor modules during adaptation to walking in a powered ankle exoskeleton.The Influence of Footwear on the Modular Organization of Running.Intra-Subject Consistency during Locomotion: Similarity in Shared and Subject-Specific Muscle Synergies.Effect of acute noxious stimulation to the leg or back on muscle synergies during walking.Challenging human locomotion: stability and modular organisation in unsteady conditions.Non-neural Muscle Weakness Has Limited Influence on Complexity of Motor Control during Gait.Muscle synergies are consistent across level and uphill treadmill running.Feasibility of Muscle Synergy Outcomes in Clinics, Robotics, and Sports: A Systematic Review.Lateral Symmetry of Synergies in Lower Limb Muscles of Acute Post-stroke Patients After Robotic Intervention.Using a Module-Based Analysis Framework for Investigating Muscle Coordination during Walking in Individuals Poststroke: A Literature Review and Synthesis.Modular Control of Human Movement During Running: An Open Access Data Set

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P2860

Motor modules of human locomotion: influence of EMG averaging, concatenation, and number of step cycles.

http://www.wikidata.org/entity/Q39924221

description

2014 nî lūn-bûn

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2014年の論文

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2014年論文

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2014年論文

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2014年論文

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2014年論文

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2014年论文

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2014年论文

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2014年论文

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name

Motor modules of human locomot ...... on, and number of step cycles.

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Motor modules of human locomot ...... on, and number of step cycles.

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Motor modules of human locomot ...... on, and number of step cycles.

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Motor modules of human locomot ...... on, and number of step cycles.

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Motor modules of human locomot ...... on, and number of step cycles.

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Motor modules of human locomot ...... on, and number of step cycles.

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FNHUM.2014.00335

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Frontiers in Human Neuroscience

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Motor modules of human locomot ...... on, and number of step cycles.

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Dario Farina

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P2860

Learning the parts of objects by non-negative matrix factorization

Adaptation reveals independent control networks for human walking

Dynamics and stability of muscle activations during walking in healthy young and older adults

Effects of robotic guidance on the coordination of locomotion.

Modular control of human walking: Adaptations to altered mechanical demands.

Merging of healthy motor modules predicts reduced locomotor performance and muscle coordination complexity post-stroke

Combinations of muscle synergies in the construction of a natural motor behavior.

Dynamic sensorimotor interactions in locomotion.

Effects of perturbations to balance on neuromechanics of fast changes in direction during locomotion.

Motor modules in robot-aided walking.

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335

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10.3389/FNHUM.2014.00335

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8

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Anderson Souza Oliveira

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2014-05-23T00:00:00Z

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