about
Feedback control as a framework for understanding tradeoffs in biologyWalking dynamics are symmetric (enough).Stride-to-stride energy regulation for robust self-stability of a torque-actuated dissipative spring-mass hopper.Haptic feedback enhances rhythmic motor control by reducing variability, not improving convergence rate.Body stiffness and damping depend sensitively on the timing of muscle activation in lampreysComplementary spatial and timing control in rhythmic arm movementsVariability in locomotor dynamics reveals the critical role of feedback in task control
P50
Q27012554-BEAA4EC4-8827-4336-9D19-EE49F50D3D1AQ35927025-5A702592-F413-4560-94AB-87958939D815Q42677131-337E29F9-6734-4F84-BB4D-217D9DB3E2AFQ45329751-5FAE71B4-C6A0-44DE-9A8F-877288C6D409Q89008658-61C3A527-AB10-43CD-8D00-7DB2BBEFD1ECQ91963005-ECD7C153-2B5E-41A9-A8E5-E07CA4532AF0Q92872237-925F8F5E-11A2-491A-956D-4C51C2C21413
P50
description
investigador
@es
researcher
@en
name
M Mert Ankarali
@en
type
label
M Mert Ankarali
@en
prefLabel
M Mert Ankarali
@en
P31
P496
0000-0002-1235-5373