Masanobu Hirano scite author profile

Recently, various prosthetic arms have been developed, but few are both attractive and functional. Considering human coexistence, prosthetic arms must be both safe and flexible. In this research, we developed a novel prosthetic arm with a five-fingered prosthetic hand using our original pneumatic actuators and a slender tendon-driven wrist using a wire drive and two small motors. Because the prosthetic hand's driving source is comprised of small pneumatic actuators, the prosthetic hand is safe when it makes contact with people; it can also operate flexibly. In addition, the arm has a tendon-driven wrist to expand its motion space and to perform many operations. First, we explain the pneumatic hand's drive mechanism and its tendon-driven wrist. Next, we identify the characteristics of the hand and the wrist and construct a control system for this arm and verify its control performance.

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Ishizaki

Yokogawa

Hirano

et al. 1996

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Development of Pneumatic Robot Hand and Construction of Master-Slave System

Tsujiuchi

Koizumi

Nishino

et al. 2008

JSDD

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Recently, research and development has focused on robots that work in place of people. It is necessary for robots to perform the same flexible motions as people. Additionally, such robots need to incorporate high-level safety features in order not to injure people. For creation of such robots, we need to develop a robot hand that functions like a human hand. At the same time, this type of robot hand can be used as an artificial hand. Here, we present artificial muscle-type pneumatic actuators as the driving source of a robot hand that is both safe and flexible. Some development of robot hands using pneumatic actuators has already taken place. But, until now, when a pneumatic actuator is used, a big compressor is needed. So, the driving system also needs to be big; enlargement of the driving system is a major problem. Consequently, in this research, we develop a low-pressure, low-volume pneumatic actuator for driving a robot hand that works flexibly and safely on the assumption that it will be in contact with people. We develop a five-fingered robot hand with pneumatic actuators. And, we construct a master-slave system to enable the robot hand to perform the same operations as a human hand. We make a 1-link arm that has one degree of freedom using a pneumatic actuator, and construct a control system for the 1-link arm and verify its control performance.

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The Universality of Quark Interactions

et al. 1971

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Approximate jacobian control for robots with uncertain kinematics and dynamics

Cheah¹,

Hirano

Kawamura

et al. 2003

IEEE Trans. Robot. Automat.

226

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Influence of a Small Number of Mature T Cells in Donor Bone Marrow Inocula on Reconstitution of Lymphoid Tissues and Negative Selection of a T Cell Repertoire in the Recipient

Arase-Fukushi

Arase

Wang

et al. 1993

Microbiology and Immunology

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Masanobu Hirano

Troglitazone suppresses cell growth of KU812 cells independently of PPARγ

Approximate Jacobian Control With Task-Space Damping for Robot Manipulators

Development of prosthetic arm with pneumatic prosthetic hand and tendon-driven wrist

Untitled

Development of Pneumatic Robot Hand and Construction of Master-Slave System

The Universality of Quark Interactions

Approximate jacobian control for robots with uncertain kinematics and dynamics

Influence of a Small Number of Mature T Cells in Donor Bone Marrow Inocula on Reconstitution of Lymphoid Tissues and Negative Selection of a T Cell Repertoire in the Recipient

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