Walking animals produce adaptive interlimb coordination during locomotion in accordance with their situation. Interlimb coordination is generated through the dynamic interactions of the neural system, the musculoskeletal system, and the environment, although the underlying mechanisms remain unclear. Recently, investigations of the adaptation mechanisms of living beings have attracted attention, and bio-inspired control systems based on neurophysiological findings regarding sensorimotor interactions are being developed for legged robots. In this review, we introduce adaptive interlimb coordination for legged robots induced by various factors (locomotion speed, environmental situation, body properties, and task). In addition, we show characte...
SummaryWalking is adaptable because the timing of movements of individual legs can be varied while m...
Human interlimb coordination and the adaptations in leg muscle activity were studied during walking ...
Dürr V. Context-dependent changes in strength and efficacy of leg coordination mechanisms. Journal o...
Interlimb coordination plays an important role in adaptive locomotion of humans and animals. This ha...
A primary goal of comparative biomechanics is to understand the fundamental physics of locomotion wi...
This paper describes a neural learning architecture for control of legged robots inspired by mammali...
As a prerequisite for developing neural control for walking machines that are able to autonomously n...
Sensory feedback plays an important role in adaptive control of insect leg movements as required, fo...
In this contribution we present experiments of an adaptive locomotion controller on a compliant quad...
Deciphering how quadrupeds coordinate their legs and other body parts, such as the trunk, head, and ...
Ebeling W, Dürr V. Perturbation of leg protraction causes context-dependent modulation of inter-leg ...
Adaptations in kinematic and kinetic measurements have been demonstrated to occur in response to dyn...
Abstract. Dynamical systems have been increasingly studied in the last decade for designing locomoti...
Walking animals show fascinating locomotor abilities and complex behaviors. Biological study has rev...
Deciphering how quadrupeds coordinate their legs and other body parts, such as the trunk, head, and ...
SummaryWalking is adaptable because the timing of movements of individual legs can be varied while m...
Human interlimb coordination and the adaptations in leg muscle activity were studied during walking ...
Dürr V. Context-dependent changes in strength and efficacy of leg coordination mechanisms. Journal o...
Interlimb coordination plays an important role in adaptive locomotion of humans and animals. This ha...
A primary goal of comparative biomechanics is to understand the fundamental physics of locomotion wi...
This paper describes a neural learning architecture for control of legged robots inspired by mammali...
As a prerequisite for developing neural control for walking machines that are able to autonomously n...
Sensory feedback plays an important role in adaptive control of insect leg movements as required, fo...
In this contribution we present experiments of an adaptive locomotion controller on a compliant quad...
Deciphering how quadrupeds coordinate their legs and other body parts, such as the trunk, head, and ...
Ebeling W, Dürr V. Perturbation of leg protraction causes context-dependent modulation of inter-leg ...
Adaptations in kinematic and kinetic measurements have been demonstrated to occur in response to dyn...
Abstract. Dynamical systems have been increasingly studied in the last decade for designing locomoti...
Walking animals show fascinating locomotor abilities and complex behaviors. Biological study has rev...
Deciphering how quadrupeds coordinate their legs and other body parts, such as the trunk, head, and ...
SummaryWalking is adaptable because the timing of movements of individual legs can be varied while m...
Human interlimb coordination and the adaptations in leg muscle activity were studied during walking ...
Dürr V. Context-dependent changes in strength and efficacy of leg coordination mechanisms. Journal o...