Add to ORKGBACKGROUND AND AIM: Healthy humans have the ability to handle balance perturbations during walking very well. The ankle moment, as well as the foot placement location and timing are altered to counteract the perturbations and maintain balance.[1] Previously, healthy subjects have shown a strong linear relation between the body´s centre of mass (COM) velocity at heel contact (HC), and both the foot placement location and centre of pressure (COP) at subsequent toe off (TO) during laterally perturbed walking.[2] The walking speeds were 0.63 and 1.25 m/s.[2] In this study, it is questioned whether this relation also exist during very slow walking, because there will be more time during the double support phase to alter the balance recovery stra...
Imposing a perturbation can induce an unstable condition during gait. Measuring the compensatory res...
The human leg joints play a major role in balance control during walking. They facilitate leg swing,...
It is still unclear how humans control mediolateral (ML) stability in walking and even more so for r...
In many simple walking models foot placement dictates the center of pressure location and ground rea...
Background. Common understanding is that adequate foot placement (stepping strategy) is crucial in m...
Whenever a perturbation occurs during walking we have to maintain our balance using the recovery str...
Whenever a perturbation occurs during walking we have to maintain our balance using the recovery str...
I. INTRODUCTION Exoskeleton walking increases the relative time spent in the double support phase (D...
During walking on a treadmill 10 human subjects (mean age 20 years) were perturbed by 100 ms pushes ...
Understanding balance during human gait is complicated by the abundance of recovery options. Among a...
Lateral balance is a critical factor in keeping the human body upright during walking. Two important...
In walking the human body is never in balance. Most of the time the trunk is supported by one leg an...
Most falls occur after a loss of balance following an unexpected perturbation such as a slip or a tr...
Contains fulltext : 191344.pdf (publisher's version ) (Closed access)During walkin...
Imposing a perturbation can induce an unstable condition during gait. Measuring the compensatory res...
Imposing a perturbation can induce an unstable condition during gait. Measuring the compensatory res...
The human leg joints play a major role in balance control during walking. They facilitate leg swing,...
It is still unclear how humans control mediolateral (ML) stability in walking and even more so for r...
In many simple walking models foot placement dictates the center of pressure location and ground rea...
Background. Common understanding is that adequate foot placement (stepping strategy) is crucial in m...
Whenever a perturbation occurs during walking we have to maintain our balance using the recovery str...
Whenever a perturbation occurs during walking we have to maintain our balance using the recovery str...
I. INTRODUCTION Exoskeleton walking increases the relative time spent in the double support phase (D...
During walking on a treadmill 10 human subjects (mean age 20 years) were perturbed by 100 ms pushes ...
Understanding balance during human gait is complicated by the abundance of recovery options. Among a...
Lateral balance is a critical factor in keeping the human body upright during walking. Two important...
In walking the human body is never in balance. Most of the time the trunk is supported by one leg an...
Most falls occur after a loss of balance following an unexpected perturbation such as a slip or a tr...
Contains fulltext : 191344.pdf (publisher's version ) (Closed access)During walkin...
Imposing a perturbation can induce an unstable condition during gait. Measuring the compensatory res...
Imposing a perturbation can induce an unstable condition during gait. Measuring the compensatory res...
The human leg joints play a major role in balance control during walking. They facilitate leg swing,...
It is still unclear how humans control mediolateral (ML) stability in walking and even more so for r...