Computer Simulation of Stepping in the Hind Legs of the Cat: An Examination of Mechanisms Regulating the Stance-to-Swing Transition
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From spontaneous motor activity to coordinated behaviour: a developmental modelProprioceptive feedback determines visuomotor gain in DrosophilaSimple robot suggests physical interlimb communication is essential for quadruped walking.Using individual-muscle specific instead of across-muscle mean data halves muscle simulation error.Development and Training of a Neural Controller for Hind Leg Walking in a Dog Robot.A Quadruped Robot Exhibiting Spontaneous Gait Transitions from Walking to Trotting to GallopingJoint kinetic response during unexpectedly reduced plantar flexor torque provided by a robotic ankle exoskeleton during walking.Afferent inputs to mid- and lower-lumbar spinal segments are necessary for stepping in spinal catsEffects of spinal cord injury-induced changes in muscle activation on foot drag in a computational rat ankle modelFeed forward and feedback control for over-ground locomotion in anaesthetized cats.Evaluation of the Phase-Dependent Rhythm Control of Human Walking Using Phase Response CurvesInsect walking is based on a decentralized architecture revealing a simple and robust controller.Force encoding in stick insect legs delineates a reference frame for motor control.The brain in its body: motor control and sensing in a biomechanical context.Limb and trunk mechanisms for balance control during locomotion in quadrupeds.From neuron to behavior: dynamic equation-based prediction of biological processes in motor control.Sensory systems in the control of movement.Sensory control of normal movement and of movement aided by neural prostheses.Neural control and precision of flight muscle activation in Drosophila.Sensory signals of unloading in one leg follow stance onset in another leg: transfer of load and emergent coordination in cockroach walking.Leg mechanics contribute to establishing swing phase trajectories during memory-guided stepping movements in walking cats: a computational analysisAnatomical mechanism of spontaneous recovery in regions caudal to thoracic spinal cord injury lesions in rats.A Mixed-Signal VLSI System for Producing Temporally Adapting Intraspinal Microstimulation Patterns for Locomotion.Neuromechanical simulation.Time course of functional recovery during first three months after surgical transection and repair of nerves to feline soleus and lateral gastrocnemius muscles.Smooth changes in the EMG patterns during gait transitions under body weight unloading.The effect of sensory feedback on crayfish posture and locomotion: II. Neuromechanical simulation of closing the loop.Validating the feedback control of intersegmental coordination by fluctuation analysis of disturbed walking.Physiologically based controller for generating overground locomotion using functional electrical stimulation.A mathematical modeling study of inter-segmental coordination during stick insect walking.A neuromechanical model explaining forward and backward stepping in the stick insect.A load-based mechanism for inter-leg coordination in insects.The effect of sensory feedback on crayfish posture and locomotion: I. Experimental analysis of closing the loop.Producing alternating gait on uncoupled feline hindlimbs: muscular unloading rule on a biomimetic robotFeasibility Study on Stability of Gait Patterns with Changeable Body Stiffness Using Pneumatic Actuators in a Quadruped RobotContributions of phase resetting and interlimb coordination to the adaptive control of hindlimb obstacle avoidance during locomotion in rats: a simulation study
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P2860
Computer Simulation of Stepping in the Hind Legs of the Cat: An Examination of Mechanisms Regulating the Stance-to-Swing Transition
description
im Dezember 2005 veröffentlichter wissenschaftlicher Artikel
@de
wetenschappelijk artikel
@nl
наукова стаття, опублікована в грудні 2005
@uk
name
Computer Simulation of Steppin ...... the Stance-to-Swing Transition
@en
Computer Simulation of Steppin ...... the Stance-to-Swing Transition
@nl
type
label
Computer Simulation of Steppin ...... the Stance-to-Swing Transition
@en
Computer Simulation of Steppin ...... the Stance-to-Swing Transition
@nl
prefLabel
Computer Simulation of Steppin ...... the Stance-to-Swing Transition
@en
Computer Simulation of Steppin ...... the Stance-to-Swing Transition
@nl
P2860
P356
P1476
Computer Simulation of Steppin ...... the Stance-to-Swing Transition
@en
P2093
Keir Pearson
P2860
P304
P356
10.1152/JN.00065.2005
P407
P577
2005-12-01T00:00:00Z