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Fall-related accidents are among the most serious concerns in elderly people, amputees and subjects with neurological disorders. The aim of this paper was to investigate the behaviour of healthy subjects wearing a novel light-weight pelvis exoskeleton controlled in zero-torque mode while carrying out unperturbed locomotion and managing unexpected perturbations. Results showed that the proposed exoskeleton was unobtrusive and had a minimum loading effect on the human biomechanics during unperturbed locomotion. Conversely, it affected the movement of the trailing leg while subjects managed unexpected slipping-like perturbations. These findings support further investigations on the potential use of powered exoskeletons to assist locomotion and, possibly prevent incipient falls.
Grégoire Courtine, Quentin Barraud, Jordan Squair, Matthieu Pierre Gautier, Rémi Bernard René Hudelle, Suje Amir, Victor Perez Puchalt, Loïs Thomas Romain Mahe, Jan Elaine Cuevas Soriano
Silvestro Micera, Elena Losanno
Dimitri Nestor Alice Van De Ville, Jonas Richiardi