Shota Ishida scite author profile

Shota Ishida

4Publications

3Citation Statements Received

6Citation Statements Given

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Tokyo Institute of Technology

Publications

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Kinetostatic Design of Ankle Rehabilitation Mechanism Capable of Adapting to Changes in Joint Axis

Matsuura¹,

Koga²,

Ishida³

et al. 2013

J. Robot. Mechatron.

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This paper proposes a simple spatial rehabilitation mechanism that aims to exert the desired flexion motion with adjustable load and also to provide an objective measure of recovery status, in terms of mobilization, force, and torque, on the affected part. This is to verify the condition of therapeutic exercise to support physiotherapists, as well as to establish selfrehabilitation by patients themselves. In this work, the composition of the mechanism is first determined by extending Oldham’s coupling mechanism. Next, a kinetostatic analysis of the mechanism is performed for two purposes. One is to determine a reasonable link dimension that achieves a suitable range of motion for the practical rehabilitation treatment of human ankle joints. The other is to calculate the magnitude of the shearing load on the ankle joint, caused by gravity and the friction of the cylindrical joints. A validation experiment demonstrates the effectiveness of the proposed mechanism and of the kinetostatic analysis. Shearing load is also compensated for through the introduction of springs to certain joints. The optimum location, spring constant, and initial offset of each spring are determined through the proposed kinetostatic analysis scheme.

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Conceptual Design of a Cable Driven Parallel Mechanism for Planar Earthquake Simulation

Matsuura

Ishida

Akramin

et al. 2016

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Earthquake simulation is helpful in order for society to experience real seismic waves in safe environment. Cable-driven parallel mechanisms have advantages over conventional serial and parallel mechanisms. Prototype simulator which covers 1 m stroke in each direction has been built. In this paper, conceptual design of an earthquake simulator using cable driven parallel mechanism is presented. Spatial arrangement of cables is investigated in terms of the stability and safety of the simulator by dynamic analysis of the simulator. It was revealed that increasing the vertical angle of the cables with the ground while connecting them

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1A2-C10 Development of Ankle Rehabilitation Device Capable of Adapting to Joint Axis Fluctuation : Load adjustment using passive springs(Rehabilitation Robotics and Mechatronics (2))

2013

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J241021 Kinetostatic Design of Ankle Rehabilitation Mechanism Capable of Adapting to Joint Axis Fluctuation

Ishida

Matsuura

Koga

et al. 2013

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Shota Ishida

Kinetostatic Design of Ankle Rehabilitation Mechanism Capable of Adapting to Changes in Joint Axis

Conceptual Design of a Cable Driven Parallel Mechanism for Planar Earthquake Simulation

1A2-C10 Development of Ankle Rehabilitation Device Capable of Adapting to Joint Axis Fluctuation : Load adjustment using passive springs(Rehabilitation Robotics and Mechatronics (2))

J241021 Kinetostatic Design of Ankle Rehabilitation Mechanism Capable of Adapting to Joint Axis Fluctuation

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