Abstract
In soft rehabilitation gloves, Individualized support considering users’ morphological and biomechanical characteristics is a next critical step towards use in rehabilitation practice. Compared with single-structure soft actuators for each finger, which require to be designed for each user, modular soft actuators enable the support for each joint by adjusting rigid connectors which are easier to fabricate. Several modular actuators have been developed, however, neither their support performance (bending angle, torque) nor individual adaptability has been appropriately evaluated. In this study, we proposed a new modular soft actuator that improved the support performance with enlarged chambers and fiber reinforcement. Moreover, we made a soft rehabilitation glove with the proposed actuators and conducted an objective evaluation for both actuators and the soft rehabilitation glove with a dummy finger and hand. As a result, the new modular soft actuators showed better support performance, and the soft rehabilitation glove can support multiple grasping profiles.
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References
World Stroke Organization: Global Stroke Fact Sheet 2016 (2016)
Polygerinos, P., Galloway, K.C., Savage, E., Herman, M., O’Donnell, K., Walsh, C.J.: Soft robotic glove for hand rehabilitation and task specific training. In: Proceedings - IEEE International Conference on Robotics and Automation, June 2015, pp. 2913–2919
Tarvainen, T., Yu, W.: Pneumatic multi-pocket elastomer actuators for metacarpophalangeal joint flexion and abduction-adduction. Actuators 6(3), 27 (2017)
Shiota, K., et al.: Enhanced Kapandji test evaluation of a soft robotic thumb rehabilitation device by developing a fiber-reinforced elastomer-actuator based 5-digit assist system. Robot. Auton. Syst. 111, 20–30 (2019)
Kamper, D.G., Rymer, W.Z.: Quantitative features of the stretch response of extrinsic finger muscles in hemiparetic stroke. Muscle Nerve 23(6), 954–961 (2000)
Elaine, E.F., Cynthia, A.P., James, W.S.: Hand Splinting: Principles and Methods (Japanese Translation). The C. V. Mosby Company, Maryland Heights (1981)
Yun, S.S., Kang, B.B., Cho, K.J.: Exo-glove PM: an easily customizable modularized pneumatic assistive glove. IEEE Robot. Autom. Lett. 2(3), 1725–1732 (2017)
Kokubu, S., Yu, W.: Developing a hybrid soft mechanism for assisting individualized flexion and extension of finger joints. In: Proceedings of the Annual International Conference of the IEEE Engineering in Medicine and Biology Society, EMBS, July 2020, pp. 4873–4877
Tarvainen, T., Fernandez-Vargas, J., Yu, W.: New layouts of fiber reinforcements to enable full finger motion assist with pneumatic multi-chamber elastomer actuators. Actuators 7(2), 31 (2018)
Research Institute of Human Engineering for Quality Life: Human Hand Dimensions Data for Ergonomic Design 2010. Research Institute of Human Engineering for Quality Life, Osaka (2010)
Ueba, Y.: Hand Its Function and Dissection [Te sono kinou to kiabou] (in Japanese), 4th edn. KINPODO, INC. (2006)
Yap, H.K., Lim, J.H., Goh, J.C.H., Yeow, C.H.: Design of a soft robotic glove for hand rehabilitation of stroke patients with clenched fist deformity using inflatable plastic actuators. J. Med. Devices Trans. ASME 10(4) (2016)
Kokubu, S., et al.: Evaluation of fiber-reinforced modular soft actuators for individualized soft rehabilitation gloves. Actuators 11(3), 84 (2022)
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Kokubu, S., Vinocour, P.E.T., Yu, W. (2023). Development and Evaluation of Fiber Reinforced Modular Soft Actuators and an Individualized Soft Rehabilitation Glove. In: Petrovic, I., Menegatti, E., Marković, I. (eds) Intelligent Autonomous Systems 17. IAS 2022. Lecture Notes in Networks and Systems, vol 577. Springer, Cham. https://doi.org/10.1007/978-3-031-22216-0_10
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DOI: https://doi.org/10.1007/978-3-031-22216-0_10
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