Pages that link to "Q48146058"

The following pages link to Different mechanisms involved in adaptation to stable and unstable dynamics (Q48146058):

Displaying 46 items.

• Visual feedback is not necessary for the learning of novel dynamics. (Q33311285) (← links)
• Interactions between limb and environmental mechanics influence stretch reflex sensitivity in the human arm (Q33593581) (← links)
• Cerebellar ataxia impairs modulation of arm stiffness during postural maintenance (Q33702393) (← links)
• The CNS stochastically selects motor plan utilizing extrinsic and intrinsic representations (Q34017888) (← links)
• Mini-max feedback control as a computational theory of sensorimotor control in the presence of structural uncertainty (Q34237200) (← links)
• Intrinsic musculoskeletal properties stabilize wiping movements in the spinalized frog. (Q34406073) (← links)
• The nervous system uses nonspecific motor learning in response to random perturbations of varying nature (Q34430432) (← links)
• Computational motor control: redundancy and invariance (Q34569362) (← links)
• Control of movement variability and the regulation of limb impedance (Q34698041) (← links)
• Impedance control is selectively tuned to multiple directions of movement (Q35543989) (← links)
• Effect of Tendon Vibration on Hemiparetic Arm Stability in Unstable Workspaces (Q35860289) (← links)
• Fatigue-induced changes of impedance and performance in target tracking (Q35880768) (← links)
• Robotics and virtual reality: a perfect marriage for motor control research and rehabilitation (Q36712524) (← links)
• Effects of the Alternate Combination of "Error-Enhancing" and "Active Assistive" Robot-Mediated Treatments on Stroke Patients. (Q36760732) (← links)
• Sensorimotor control of contact force (Q37269577) (← links)
• High-Frequency Intermuscular Coherence between Arm Muscles during Robot-Mediated Motor Adaptation (Q37570318) (← links)
• Catch trials in force field learning influence adaptation and consolidation of human motor memory. (Q37725602) (← links)
• Biologically inspired modelling for the control of upper limb movements: from concept studies to future applications (Q39924274) (← links)
• Modulation of internal model formation during force field-induced motor learning by anodal transcranial direct current stimulation of primary motor cortex (Q45371187) (← links)
• Trial-to-trial adaptation in control of arm reaching and standing posture (Q46605877) (← links)
• Motor adaptation to a small force field superimposed on a large background force (Q46849687) (← links)
• Greater reliance on impedance control in the nondominant arm compared with the dominant arm when adapting to a novel dynamic environment (Q48115471) (← links)
• Accurate real-time feedback of surface EMG during fMRI. (Q48411562) (← links)
• When adaptive control fails: Slow recovery of reduced rapid online control during reaching under reversed vision (Q48546072) (← links)
• Optimal impedance control for task achievement in the presence of signal-dependent noise (Q48552169) (← links)
• Influence of the inter-reach-interval on motor learning (Q48795326) (← links)
• Muscle co-contraction patterns in robot-mediated force field learning to guide specific muscle group training (Q48800393) (← links)
• CNS learns stable, accurate, and efficient movements using a simple algorithm. (Q48858499) (← links)
• Novel strategies in feedforward adaptation to a position-dependent perturbation. (Q48910753) (← links)
• Rapid feedback responses correlate with reach adaptation and properties of novel upper limb loads (Q50718213) (← links)
• Motor memory and local minimization of error and effort, not global optimization, determine motor behavior. (Q51052894) (← links)
• Transfer and durability of acquired patterns of human arm stiffness (Q51309983) (← links)
• Effects of wrist tendon vibration on targeted upper-arm movements in poststroke hemiparesis (Q51651280) (← links)
• Neuronal activity in the cingulate motor areas during adaptation to a new dynamic environment. (Q51896250) (← links)
• Position information but not force information is used in adapting to changes in environmental dynamics. (Q51943828) (← links)
• Endpoint stiffness of the arm is directionally tuned to instability in the environment. (Q51980739) (← links)
• Impedance control and internal model use during the initial stage of adaptation to novel dynamics in humans. (Q52046891) (← links)
• Impedance control balances stability with metabolically costly muscle activation. (Q52089116) (← links)
• Learning control in robot-assisted rehabilitation of motor skills – a review (Q56420758) (← links)
• Human eye-head gaze shifts preserve their accuracy and spatiotemporal trajectory profiles despite long-duration torque perturbations that assist or oppose head motion (Q57041281) (← links)
• The Effect of Three Different Strategies Based on Motor Task Performance on Neuromuscular Fatigue in Healthy Men and Men with Multiple Sclerosis (Q57825506) (← links)
• Increasing muscle co-contraction speeds up internal model acquisition during dynamic motor learning (Q58612339) (← links)
• Three different motor task strategies to assess neuromuscular adjustments during fatiguing muscle contractions in young and older men (Q88651329) (← links)
• Stochastic optimal open-loop control as a theory of force and impedance planning via muscle co-contraction (Q89938806) (← links)
• Electrically-Evoked Proximity Sensation Can Enhance Fine Finger Control in Telerobotic Pinch (Q92610591) (← links)
• A Review of Sensory Feedback in Upper-Limb Prostheses From the Perspective of Human Motor Control (Q97519741) (← links)