Tomoki Tamada scite author profile

Tomoki Tamada

4Publications

8Citation Statements Received

13Citation Statements Given

How they've been cited

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Affiliations

Sony Corporation (United States), The University of Tokyo

Publications

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High-speed bipedal robot running using high-speed visual feedback

Tamada

Ikarashi

Yoneyama

et al. 2014

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This paper presents a new method of realizing high-speed bipedal running with a high-speed robot using highspeed visual feedback. First, to achieve high-speed running with simple control, we developed a biped robot composed of lightweight high-torque actuators. Next we propose a control strategy which does not depend on typical methods based on a zero moment point, but instead modifies the robot's posture by high-speed visual feedback. In the strategy, by adding instantaneous high torque, we confirmed that the robot could execute running in the unbalanced region. We realized bipedal running at the speed corresponding to a Froude number of approximately 1.0, the highest reported value for non-birdlike bipedal robots.

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High-speed manipulation of cable connector using a high-speed robot hand

Tamada

Yamakawa

Senoo

et al. 2013

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Development of High-speed Bipedal Running Robot System (ACHIRES)

Tamada

Ikarashi

Yoneyama

et al. 2015

JRSJ

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This paper presents a new method of realizing high-speed bipedal running with a high-speed robot using high-speed visual feedback. First, to achieve high-speed running with simple control, we developed a biped robot composed of lightweight high-torque actuators. Next we propose a control strategy which does not depend on typical methods based on a zero moment point, but instead modifies the robot's posture by high-speed visual feedback. In the strategy, by adding instantaneous high torque, we confirmed that the robot could execute running in the unbalanced region. We realized bipedal running at the speed corresponding to a Froude number of approximately 1.0, the highest reported value for non-birdlike bipedal robots.

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>2 MW peak power at 1560 nm from micro giant-pulse laser/amplifier with PPMgLN OPG

Yue¹,

Tamada²,

Kamata³

et al. 2016

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Tomoki Tamada

High-speed bipedal robot running using high-speed visual feedback

High-speed manipulation of cable connector using a high-speed robot hand

Development of High-speed Bipedal Running Robot System (ACHIRES)

>2 MW peak power at 1560 nm from micro giant-pulse laser/amplifier with PPMgLN OPG

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