Add to ORKGWe measured variability of foot placement during gait to test whether lateral balance must be actively controlled against dynamic instability. The hypothesis was developed using a simple dynamical model that can walk down a slight incline with a periodic gait resembling that of humans. This gait is entirely passive except that it requires active control for a single unstable mode, con"ned mainly to lateral motion. An especially e$cient means of controlling this instability is to adjust lateral foot placement. We hypothesized that similar active feedback control is performed by humans, with fore-aft dynamics stabilized either passively or by very low-level control. The model predicts that uncertainty within the active feedback loop shou...
Lateral balance is a critical factor in keeping the human body upright during walking. Two important...
A fundamental question in human motor neuroscience is to determine how the nervous system generates ...
Human walking exhibits small variations in both step length and step width, some of which may be rel...
We measured variability of foot placement during gait to test whether lateral balance must be active...
An essential component of human walking is the control of balance. Inadequate balance control can le...
Typical healthy walking displays greater variability in the mediolateral direction compared to the a...
Human walking displays increased uncertainty in the medial-lateral (ML) direction compared to the an...
External lateral stabilization can help identify stability control mechanisms during steady-state wa...
During walking on a treadmill 10 human subjects (mean age 20 years) were perturbed by 100 ms pushes ...
It is still unclear how humans control mediolateral (ML) stability in walking and even more so for r...
Previous research exploring a lateral stepping gait utilized amount of variability (i.e. coefficient ...
Research has indicated that human walking is more unstable in the secondary, rather than primary pla...
The most often purported mechanism causing the lateral dynamic instability of the London Millennium ...
The traditional view of motor control predicates that the central nervous system dictates the motion...
During human walking, perturbations to the upper body can be partly corrected by placing the foot ap...
Lateral balance is a critical factor in keeping the human body upright during walking. Two important...
A fundamental question in human motor neuroscience is to determine how the nervous system generates ...
Human walking exhibits small variations in both step length and step width, some of which may be rel...
We measured variability of foot placement during gait to test whether lateral balance must be active...
An essential component of human walking is the control of balance. Inadequate balance control can le...
Typical healthy walking displays greater variability in the mediolateral direction compared to the a...
Human walking displays increased uncertainty in the medial-lateral (ML) direction compared to the an...
External lateral stabilization can help identify stability control mechanisms during steady-state wa...
During walking on a treadmill 10 human subjects (mean age 20 years) were perturbed by 100 ms pushes ...
It is still unclear how humans control mediolateral (ML) stability in walking and even more so for r...
Previous research exploring a lateral stepping gait utilized amount of variability (i.e. coefficient ...
Research has indicated that human walking is more unstable in the secondary, rather than primary pla...
The most often purported mechanism causing the lateral dynamic instability of the London Millennium ...
The traditional view of motor control predicates that the central nervous system dictates the motion...
During human walking, perturbations to the upper body can be partly corrected by placing the foot ap...
Lateral balance is a critical factor in keeping the human body upright during walking. Two important...
A fundamental question in human motor neuroscience is to determine how the nervous system generates ...
Human walking exhibits small variations in both step length and step width, some of which may be rel...