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Finger Joint Stiffness Estimation with Joint Modular Soft Actuators for Hand Telerehabilitation

Fuko Matsunaga, Shota Kokubu, Pablo E. Tortós Vinocour, Ming-Ta Ke, Ya‐Hsin Hsueh, Shao Ying Huang, José Gómez-Tames, Wenwei Yu

2023Robotics13 citationsDOIOpen Access PDF

Abstract

In a telerehabilitation environment, it is difficult for a therapist to understand the condition of a patient’s finger joints because of the lack of direct assessment. In particular, not enabling the provision of spasticity evaluation significantly reduces the optimal performance of telerehabilitation. In a previous study, it has been proposed that finger stiffness could be estimated using an analytical model of a whole-finger soft actuator. However, because the whole-finger soft actuators require high air pressure for high bending performance and are costly to customize for each patient, using joint modular soft actuators for telerehabilitation turns to be a necessity, though stiffness estimation with joint modular soft actuators has not been studied yet. Another problem is caused by using a marker-based joint angle measurement, which requires the markers to be attached to the exact positions, and limits its application in telerehabilitation. In this study, we proposed a procedure of finger joint stiffness estimation that combines information acquired from a joint modular soft actuator and a marker-less hand joint position acquisition device. Correction parameters were added to the previous analytical model for -the bending analysis of a joint assisted using a joint modular soft actuator. Moreover, a multi-variate regression model was implemented for correcting joint angles obtained from the hand joint position acquisition device. As a result, a reasonable accuracy of stiffness estimation was achieved for rehabilitation with the joint modular soft actuators, which suggests the possibility of using the proposed method to evaluate the finger spasticity in a telerehabilitation environment. This is a big step forward towards optimal hand telerehabilitation.

Topics & Concepts

Modular designActuatorTelerehabilitationJoint (building)Computer scienceFinger jointStiffnessJoint stiffnessSimulationEngineeringArtificial intelligenceStructural engineeringMedicineTelemedicineSurgeryOperating systemEconomic growthEconomicsHealth careBotulinum Toxin and Related Neurological DisordersStroke Rehabilitation and RecoveryMuscle activation and electromyography studies