2014
DOI: 10.1541/ieejjia.3.350
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Development of Rehabilitation Support Robot with Guidance Control Based on Biarticular Muscle Mechanism

Abstract: This study presents the guidance control provided by a rehabilitation support robot that is intended to assist with the movement of a patient's arm. The guidance control is accomplished using a stiffness ellipse. The characteristic that the direction of force acted upon changes depending on the settings of the stiffness ellipse is used for guiding the movement. The system developed in this study adjusts the stiffness ellipse by using a musculoskeletal manipulator with biarticular mechanism. It was verified tha… Show more

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Cited by 18 publications
(5 citation statements)
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“…This fact can also be guessed from Hogan's study, which has mentioned that the mechanical stiffness ellipse can be arbitrarily given only when the arm has both biarticular and monoarticular mechanisms [13]. Yokoo et al used a robotic arm to vary the angular stiffness of respective antagonist muscles and conducted an experiment that simulated rehabilitation with deformed stiffness ellipse, which indicated that the induction of movements was possible [12]. The angular stiffness, however, is a ratio of angular change with respect to the load torque and is measured with the unit of Nm/rad.…”
Section: B Stiffness Ellipsementioning
confidence: 98%
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“…This fact can also be guessed from Hogan's study, which has mentioned that the mechanical stiffness ellipse can be arbitrarily given only when the arm has both biarticular and monoarticular mechanisms [13]. Yokoo et al used a robotic arm to vary the angular stiffness of respective antagonist muscles and conducted an experiment that simulated rehabilitation with deformed stiffness ellipse, which indicated that the induction of movements was possible [12]. The angular stiffness, however, is a ratio of angular change with respect to the load torque and is measured with the unit of Nm/rad.…”
Section: B Stiffness Ellipsementioning
confidence: 98%
“…It is obvious that the scores of the training improves by guidance control especially when the subject has low motor performance. It has also been shown that guidance control with limited input shows higher accuracy than that with complete input [12]. However, the motor learning effect of guidance control still remains some unclear parts.…”
Section: Introductionmentioning
confidence: 99%
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“…The second type of assist technology is a rehabilitation support robot used for a patient's arm. Research on this robot included developing a mechatronic system using the biarticular muscle mechanism that adjusts the stiffness ellipse .…”
Section: Motion Controlmentioning
confidence: 99%
“…Therefore, the model has been applied to rehabilitation sciences, robotics, and the fields of mechanical engineering, for example, a development of an externally powered lower limb orthosis ( Saito et al. 2005 ) and a development of a rehabilitation support robot ( Tsuji et al. 2014 ), a development of a lancelet robot ( Tsuji 2010 ), a development of a robotic arm ( Salvucci et al.…”
Section: Introductionmentioning
confidence: 99%