Many power-assist wearable exoskeletons have been developed to provide walking support and gait rehabilitation for elderly subjects and gait-disorder patients. Most designers have focused on a direct power-assist to the wearer's lower limbs. However, gait is a coordinated rhythmic movement of four limbs controlled intrinsically by central pattern generators, with the upper limbs playing an important role in walking. Maintaining a normal gait can become difficult as a person ages, because of decreases in limb coordination, stride length, and gait speed. It is known that coordination mechanisms can be governed by the principle of mutual entrainment, in which synchronization develops through the interaction between nonlinear phase oscillators ...
In the last years, we have witnessed one of the greatest revolutions in the scientific world, the de...
In this paper, we study the human locomotor adaptation to the action of a powered exoskeleton provid...
Reproducing the mechanisms of human locomotion is a hard challenge. Assistive wearable devices in th...
Many power-assist wearable exoskeletons have been developed to provide walking support and gait reha...
Many power-assist wearable exoskeletons have been developed to provide walking support and gait reha...
Many power-assist wearable exoskeletons have been developed to provide walking support and gait reha...
Many power-assist wearable exoskeletons have been developed to provide walking support and gait reha...
Many power-assist wearable exoskeletons have been developed to provide walking support and gait reha...
Many power-assist wearable exoskeletons have been developed to provide walking support and gait reha...
Many power-assist wearable exoskeletons have been developed to provide walking support and gait reha...
Abstract Background A robotic exoskeleton device is an intelligent system designed to improve gait p...
Purpose: Ambulation is an important objective for people with pathological gaits. Exoskeleton robots...
Robotic exoskeletons are regarded as promising technologies for neurological gait rehabilitation but...
<p>Exoskeletons have the ability to improve locomotor performance for a wide range of individuals: t...
A user intention based rehabilitation strategy for a lower-limb wearable robot is proposed and evalu...
In the last years, we have witnessed one of the greatest revolutions in the scientific world, the de...
In this paper, we study the human locomotor adaptation to the action of a powered exoskeleton provid...
Reproducing the mechanisms of human locomotion is a hard challenge. Assistive wearable devices in th...
Many power-assist wearable exoskeletons have been developed to provide walking support and gait reha...
Many power-assist wearable exoskeletons have been developed to provide walking support and gait reha...
Many power-assist wearable exoskeletons have been developed to provide walking support and gait reha...
Many power-assist wearable exoskeletons have been developed to provide walking support and gait reha...
Many power-assist wearable exoskeletons have been developed to provide walking support and gait reha...
Many power-assist wearable exoskeletons have been developed to provide walking support and gait reha...
Many power-assist wearable exoskeletons have been developed to provide walking support and gait reha...
Abstract Background A robotic exoskeleton device is an intelligent system designed to improve gait p...
Purpose: Ambulation is an important objective for people with pathological gaits. Exoskeleton robots...
Robotic exoskeletons are regarded as promising technologies for neurological gait rehabilitation but...
<p>Exoskeletons have the ability to improve locomotor performance for a wide range of individuals: t...
A user intention based rehabilitation strategy for a lower-limb wearable robot is proposed and evalu...
In the last years, we have witnessed one of the greatest revolutions in the scientific world, the de...
In this paper, we study the human locomotor adaptation to the action of a powered exoskeleton provid...
Reproducing the mechanisms of human locomotion is a hard challenge. Assistive wearable devices in th...