Pages that link to "Item:Q2376448"

The following pages link to Concurrent adaptation of force and impedance in the redundant muscle system (Q2376448):

Displaying 15 items.

• Elastic recoil can either amplify or attenuate muscle-tendon power, depending on inertial vs. fluid dynamic loading (Q293822) (← links)
• Examination of the \(\lambda\) equilibrium point hypothesis when applied to single degree of freedom movements performed with different inertial loads (Q678476) (← links)
• Computational model of motor learning and perceptual change (Q740622) (← links)
• Optimal task performance of antagonistic muscles (Q922990) (← links)
• Computational nature of human adaptive control during learning of reaching movements in force fields (Q1302359) (← links)
• A mathematical model of the adaptive control of human arm motions (Q1306022) (← links)
• Learned changes in the complexity of movement organization during multijoint, standing pulls (Q1376163) (← links)
• The role of muscle spindles in constraining motor control (Q1851854) (← links)
• Stability and motor adaptation in human arm movements (Q2373075) (← links)
• Can co-activation reduce kinematic variability? A simulation study (Q2373175) (← links)
• A central back-coupling hypothesis on the organization of motor synergies: a physical metaphor and a neural model (Q2500220) (← links)
• Adaptive dynamic programming as a theory of sensorimotor control (Q2514800) (← links)
• Adaptive control of mechanical impedance by coactivation of antagonist muscles (Q3331008) (← links)
• Model-Free Robust Optimal Feedback Mechanisms of Biological Motor Control (Q5131189) (← links)
• Body Mechanics, Optimality, and Sensory Feedback in the Human Control of Complex Objects (Q6136194) (← links)