Synopsis Locomotion in a complex environment is often not steady, but the mechanisms used by animals to power and control unsteady locomotion (stability and maneuverability) are not well understood. We use behavioral, morphological, and impulsive perturbations to determine the compensations used during unsteady locomotion. At the level both of the whole-body and of joints, quasi-stiffness models are useful for describing adjustments to the functioning of legs and joints during maneuvers. However, alterations to the mechanics of legs and joints often are distinct for different phases of the step cycle or for specific joints. For example, negotiating steps involves independent changes of leg stiffness during compression and thrust phases of s...
Ebeling W, Dürr V. Perturbation of leg protraction causes context-dependent modulation of inter-leg ...
Existing models have represented a locomotor system as a rhythmic driver, or central pattern generat...
Abstract Navigating complex terrains requires dynamic interactions between the substr...
Synopsis Locomotion in a complex environment is often not steady, but the mechanisms used by animals...
Despite advancement in the field of robotics, current legged robots still cannot achieve the kind of...
The strategies that humans use to control unsteady locomotion are not well understood. A "spring-mas...
Most terrestrial animals move with a specific number of propulsive legs, which differs between clade...
Research studies on dynamic models of legged locomotion have generally focused on telescoping-type l...
Abstract Evidence for the simplification of motor control of the limbs through a reduction in the nu...
Research studies on dynamic models of legged locomotion have generally focused on telescoping-type l...
The mechanics of locomotion classically take into account the work done by muscle force to raise and...
Carrying loads with a rigid structure during legged locomotion is difficult, inefficient, and can le...
Accurately predicting human locomotion has been a goal of various mathematical models. Early canonic...
Balance is critical for human posture control when standing upright and during cyclic locomotor task...
When human hoppers are surprised by a change in surface stiffness, they adapt almost instantly by ch...
Ebeling W, Dürr V. Perturbation of leg protraction causes context-dependent modulation of inter-leg ...
Existing models have represented a locomotor system as a rhythmic driver, or central pattern generat...
Abstract Navigating complex terrains requires dynamic interactions between the substr...
Synopsis Locomotion in a complex environment is often not steady, but the mechanisms used by animals...
Despite advancement in the field of robotics, current legged robots still cannot achieve the kind of...
The strategies that humans use to control unsteady locomotion are not well understood. A "spring-mas...
Most terrestrial animals move with a specific number of propulsive legs, which differs between clade...
Research studies on dynamic models of legged locomotion have generally focused on telescoping-type l...
Abstract Evidence for the simplification of motor control of the limbs through a reduction in the nu...
Research studies on dynamic models of legged locomotion have generally focused on telescoping-type l...
The mechanics of locomotion classically take into account the work done by muscle force to raise and...
Carrying loads with a rigid structure during legged locomotion is difficult, inefficient, and can le...
Accurately predicting human locomotion has been a goal of various mathematical models. Early canonic...
Balance is critical for human posture control when standing upright and during cyclic locomotor task...
When human hoppers are surprised by a change in surface stiffness, they adapt almost instantly by ch...
Ebeling W, Dürr V. Perturbation of leg protraction causes context-dependent modulation of inter-leg ...
Existing models have represented a locomotor system as a rhythmic driver, or central pattern generat...
Abstract Navigating complex terrains requires dynamic interactions between the substr...