Handmaid: design and evaluation of a hand exoskeleton with active backdrive for neuromuscular rehabilitation
摘要
Hand impairments caused by stroke or neuromuscular disorders severely restrict daily activities, underscoring the need for effective, home-applicable rehabilitation systems. This study presents HandMaid, a wearable hand exoskeleton that restores motion through electromyography (EMG)-based intention detection and an active backdrive safety mechanism. The system integrates a 3D-printed rigid exoskeleton, linear actuators, and a neural network interface that is retrained before each use to compensate for variations in electrode placement, skin resistance, temperature, and humidity. This adaptive training procedure ensures reliable signal interpretation under different environmental and physiological conditions. Kinematic and experimental analyses demonstrate that the device covers approximately 81% of the anatomical range of motion (MCP