This letter presents and experimentally demonstrates a novel framework for variable assistance on lower body exoskeletons, based upon safety-critical control methods. Existing work has shown that providing some freedom of movement around a nominal gait, instead of rigidly following it, accelerates the spinal learning process of people with a walking impediment when using a lower body exoskeleton. With this as motivation, we present a method to accurately control how much a subject is allowed to deviate from a given gait while ensuring robustness to patient perturbation. This method leverages control barrier functions to force certain joints to remain inside predefined trajectory tubes in a minimally invasive way. The effectiveness of the me...
En los últimos años, los exoesqueletos robóticos de las extremidades inferiores se han convertido en...
There are 6.8 million people in the United States that have mobility disorders and must rely on the ...
Research on lower limb exoskeleton (LLE) for rehabilitation have developed rapidly to meet the need ...
This letter presents and experimentally demonstrates a novel framework for variable assistance on lo...
We present a method for lower-limb exoskeleton control that defines assistance as a desired dynamic ...
Currently, lower-body exoskeletons forparaplegics are investigated as an alternative to wheelchairsa...
Bipedal locomotion is a remarkable feature of humans. This skill is necessary for the activities of ...
An emerging approach to design locomotion assistive devices deals with reproducing desirable biologi...
Various powered wearable lower limb exoskeletons are designed for paraplegics to make them walk agai...
"I will never forget the emotion of my first steps […]," were the words of Fran?oise, the first user...
This letter presents an experimental study on balance recovery control with a lower limb exoskeleton...
This letter presents an experimental study on balance recovery control with a lower limb exoskeleton...
Over 265,000 individuals in the United States have a spinal cord injury. The wheelchair is currentl...
© 2015 Elsevier B.V. Current strategies for lower-limb exoskeleton control include motion intent est...
Robotic technology has recently been used to help stroke patients with gait and balance rehabilitati...
En los últimos años, los exoesqueletos robóticos de las extremidades inferiores se han convertido en...
There are 6.8 million people in the United States that have mobility disorders and must rely on the ...
Research on lower limb exoskeleton (LLE) for rehabilitation have developed rapidly to meet the need ...
This letter presents and experimentally demonstrates a novel framework for variable assistance on lo...
We present a method for lower-limb exoskeleton control that defines assistance as a desired dynamic ...
Currently, lower-body exoskeletons forparaplegics are investigated as an alternative to wheelchairsa...
Bipedal locomotion is a remarkable feature of humans. This skill is necessary for the activities of ...
An emerging approach to design locomotion assistive devices deals with reproducing desirable biologi...
Various powered wearable lower limb exoskeletons are designed for paraplegics to make them walk agai...
"I will never forget the emotion of my first steps […]," were the words of Fran?oise, the first user...
This letter presents an experimental study on balance recovery control with a lower limb exoskeleton...
This letter presents an experimental study on balance recovery control with a lower limb exoskeleton...
Over 265,000 individuals in the United States have a spinal cord injury. The wheelchair is currentl...
© 2015 Elsevier B.V. Current strategies for lower-limb exoskeleton control include motion intent est...
Robotic technology has recently been used to help stroke patients with gait and balance rehabilitati...
En los últimos años, los exoesqueletos robóticos de las extremidades inferiores se han convertido en...
There are 6.8 million people in the United States that have mobility disorders and must rely on the ...
Research on lower limb exoskeleton (LLE) for rehabilitation have developed rapidly to meet the need ...