International audienceMature locomotion in humans is characterized by an anti-phase coordination (moving in opposite directions) between the pelvic and the scapular girdles. This pattern involves a specific relationship between the arm and leg motion is deemed to be most flexible and dynamically efficient. Still, when the arms are involved in another task, like a field player running with a ball in the hands, locomotion is still possible. In order to probe the flexibility of the locomotor synergy, the present study aimed to determine the persistence and the strength of the coordination patterns between the pelvic and scapular girdles when no arm swing was allowed during walking and running. Relative phase, the time difference between the gi...
The arms and thorax are integral parts of the human body for locomotion. However, the legs have been...
The arms and thorax are integral parts of the human body for locomotion. However, the legs have been...
Computational models of walking are not often coherent with experimental design. Although the upper...
International audienceMature locomotion in humans is characterized by an anti-phase coordination (mo...
It has been argued that arm movements are important during human gait because they affect leg activi...
Arm swing during human gait has been shown to reduce both angular momentum about the vertical and en...
To evaluate the contrasting dynamical and biomechanical interpretations of the 2:1 frequency coordin...
Although previous research has studied arm swing during walking, to date, it remains unclear what th...
Changes to arm swing and gait symmetry are symptomatic of several pathological gaits associated with...
Although previous research has studied arm swing during walking, to date, it remains unclear what th...
Arm swing is an essential component in regulating dynamic stability of the whole body during walking...
Humans walk bipedally, and thus, it is unclear why they swing their arms. In this paper, we will rev...
Humans walk bipedally, and thus, it is unclear why they swing their arms. In this paper, we will rev...
Multilimb coordination was examined when subjects clapped (in-phase pattern) while walking (out-of-p...
Introduction: Falling causes long term disability and can even lead to death. Most falls occur durin...
The arms and thorax are integral parts of the human body for locomotion. However, the legs have been...
The arms and thorax are integral parts of the human body for locomotion. However, the legs have been...
Computational models of walking are not often coherent with experimental design. Although the upper...
International audienceMature locomotion in humans is characterized by an anti-phase coordination (mo...
It has been argued that arm movements are important during human gait because they affect leg activi...
Arm swing during human gait has been shown to reduce both angular momentum about the vertical and en...
To evaluate the contrasting dynamical and biomechanical interpretations of the 2:1 frequency coordin...
Although previous research has studied arm swing during walking, to date, it remains unclear what th...
Changes to arm swing and gait symmetry are symptomatic of several pathological gaits associated with...
Although previous research has studied arm swing during walking, to date, it remains unclear what th...
Arm swing is an essential component in regulating dynamic stability of the whole body during walking...
Humans walk bipedally, and thus, it is unclear why they swing their arms. In this paper, we will rev...
Humans walk bipedally, and thus, it is unclear why they swing their arms. In this paper, we will rev...
Multilimb coordination was examined when subjects clapped (in-phase pattern) while walking (out-of-p...
Introduction: Falling causes long term disability and can even lead to death. Most falls occur durin...
The arms and thorax are integral parts of the human body for locomotion. However, the legs have been...
The arms and thorax are integral parts of the human body for locomotion. However, the legs have been...
Computational models of walking are not often coherent with experimental design. Although the upper...