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Article Abstract
Gait rehabilitation programs aid individuals recovering from brain injury or severe lower-leg trauma. While robotic exoskeletons may offer advantages over traditional exercise-based interventions, their high cost and lack of personalized fit limit their clinical utility. In this paper, we present a new efficient design workflow for individualized 2-DOF ankle exoskeletons. The anatomical orientations of the talocrural and subtalar joints are estimated by utilizing a functional calibration procedure and then embedded and implemented into the ankle exoskeleton. The exoskeleton is fabricated using affordable additive manufacturing processes to conform to the user's leg morphology. This creates a personalized design that encapsulates the envelope of the ankle joint complex motion. By achieving this without the need for kinematic redundancy, we aim at maintaining a lightweight design with reduced mechanical complexity. Early tests with two healthy individuals indicate the feasibility of the proposed approach.
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| http://dx.doi.org/10.1109/ICORR66766.2025.11062994 | DOI Listing |
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