This study integrates synergy-based Functional Electrical Stimulation (FES) with a robotic exoskeleton for upper limb rehabilitation, aiming to improve muscle recruitment, delay muscle fatigue, and reduce motor energy consumption. Preliminary tests with 3 non-disabled subjects indicate that the hybrid system can reduce energy consumption while preserving a good trajectory tracking. Future studies should evaluate the efficacy of this hybrid approach in enhancing rehabilitation outcomes for neurological patients.
A Synergy-Based Cooperative Control System for an Upper-Limb Hybrid FES-Robotic Exoskeleton
De Marchis C.;
2025-01-01
Abstract
This study integrates synergy-based Functional Electrical Stimulation (FES) with a robotic exoskeleton for upper limb rehabilitation, aiming to improve muscle recruitment, delay muscle fatigue, and reduce motor energy consumption. Preliminary tests with 3 non-disabled subjects indicate that the hybrid system can reduce energy consumption while preserving a good trajectory tracking. Future studies should evaluate the efficacy of this hybrid approach in enhancing rehabilitation outcomes for neurological patients.File in questo prodotto:
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