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A Wearable Hand Neuroprosthesis for Hand Rehabilitation After Stroke: Preliminary Results of the RETRAINER S2 Randomized Controlled Trial Read chapter Read first chapter

2019 | OriginalPaper | Chapter

A Novel Design of Nonlinear Stiffness Actuator for Neurorehabilitation Robots

Authors : Zhibin Song, Xiuqi Hu, Jiansheng Dai

Published in: Converging Clinical and Engineering Research on Neurorehabilitation III

Publisher: Springer International Publishing

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Abstract

Nonlinear stiffness actuator is a key point in the research field of neurorehabilitation robot. An actuator with good nonlinear stiffness characteristics can simulate the natural features of human interaction with the outside environment better, so as to achieve better rehabilitation training effect. In this paper, a novel nonlinear stiffness actuator was designed, mainly including two rollers, two couples of customized concave blocks with opposite directions, partial gear train, and a central torsion spring. Thereinto, the profile curve of customized concave block was mapped by a predefined deflection-torque trajectory with the natural interaction feature. And the central torsion spring was directly obtained from the existing products. Through this novel actuator, the human-machine interaction characteristics of “low load, low stiffness and high load, high stiffness” [1] can be realized.

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previous chapter Assisting Limb Advancement During Walking After Stroke Using a Wearable Soft Hip Exosuit: A Proof-of-Concept
next chapter Synchronizing Connection-Oriented Distributed Sensor Network Using Bluetooth Low Energy with Unmodified Android Device
Literature
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Lan, S.-B., Song, Z.-B.: Design of a new nonlinear stiffness compliant actuator and its error compensation method. J. Robot. 2016, 8 p. (2016). Article ID 7326905
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Palli, G., Berselli, G., Melchiorri, C., Vassura, G.: Design of a variable stiffness actuator based on flexures. J. Mech. Robot. 3(3), 5 p. (2011). Article ID 034501
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Barrett, E., Matteo, F., Carloni, R.: Elastic energy storage in leaf springs for a lever-arm based Variable Stiffness Actuator. In: 2016 IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS), pp. 537–542. IEEE (2016)
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Realmuto, J., Klute, G., Devasia, S.: Nonlinear passive cam-based springs for powered ankle prostheses. J. Med. Dev. 9, 10 p. (2015). Article ID 011007
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Malosio, M., Spagnuolo, G., Prini, A., Tosatti, L.M., Legnani, G.: Principle of operation of RotWWC-VSA, a multi-turn rotational variable stiffness actuator. Mech. Mach. Theory 116, 34–49 (2017)CrossRef
Metadata
Title
A Novel Design of Nonlinear Stiffness Actuator for Neurorehabilitation Robots
Authors
Zhibin Song
Xiuqi Hu
Jiansheng Dai
Copyright Year
2019
Book
Converging Clinical and Engineering Research on Neurorehabilitation III

Print ISBN: 978-3-030-01844-3

Electronic ISBN: 978-3-030-01845-0

Copyright Year: 2019

DOI
https://doi.org/10.1007/978-3-030-01845-0_64