Shoulder kinematics plus contextual target information enable control of multiple distal joints of a simulated prosthetic arm and hand.
Sébastien MickEffie SegasLucas DureChristophe HalgandJenny Benois-PineauGerald E LoebDaniel CattaertAymar de RugyPublished in: Journal of neuroengineering and rehabilitation (2021)
Although notable challenges remain before applying the proposed control scheme to a real-world prosthesis, our study shows that adding contextual information to command signals greatly improves prediction of distal joint angles for prosthetic control.