Masaki Tatani scite author profile

Masaki Tatani

5Publications

6Citation Statements Received

37Citation Statements Given

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Affiliations

Nihon University

Publications

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A Millimetre-Sized Robot Realized by a Piezoelectric Impact-Type Rotary Actuator and a Hardware Neuron Model

Takato

Tatani

Oku

et al. 2014

International Journal of Advanced Robotic Systems

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Micro-robotic systems are increasingly used in medicine and other fields requiring precision engineering. This paper proposes a piezoelectric impacttype rotary actuator and applies it to a millimetre-size robot controlled by a hardware neuron model. The rotary actuator and robot are fabricated by micro-electromechanical systems (MEMS) technology. The actuator is composed of multilayer piezoelectric elements. The rotational motion of the rotor is generated by the impact head attached to the piezoelectric element. The millimetre-size robot is fitted with six legs, three on either side of the developed actuator, and can walk on uneven surfaces like an insect. The three leg parts on each side are connected by a linking mechanism. The control system is a hardware neuron model constructed from analogue electronic circuits that mimic the behaviour of biological neurons. The output signal ports of the controller are connected to the multilayer piezoelectric element. This robot system requires no specialized software programs or A/D converters. The rotation speed of the rotary actuator reaches 60 rpm at an applied neuron frequency of 25 kHz during the walking motion. The width, length and height of the robot are 4.0, 4.6 and 3.6 mm, respectively. The motion speed is 180 mm/min.

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MEMS Microrobot Controlled by Mounted Neural Networks IC with Two Types Actuators

Iwata

Oku

Okane

et al. 2016

JRNAL

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We report the hexapod microrobot controlled by the bare chip IC of hardware neural networks. MEMS (micro electro mechanical systems) technology is used for fabrication of the microrobot. Lead zirconium titanate (PZT) and shape memory alloy (SMA) are used in each actuator, respectively. As the result, PZT type is realized the walking motion by bare chip IC. Moreover, SMA type shows the hexapod walking locomotion with mounted bare chip IC. The walking speed is 2.4mm / min and the step width was 0.083mm.

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Piezo impact type MEMS rotary actuator and application to millimeter size AI controlled robot

Takato

Tatani

Tanida

et al. 2013

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microrobotic systems are increasingly used in medicine and other fields requiring precision engineering. This paper proposes a piezo impact-type rotary actuator and applies it to a millimeter-size robot controlled by an artificial intelligence (AI) system. The rotary actuator and robot are fabricated by micro electro mechanical systems (MEMS) technology using a silicon wafer. The actuator is composed of multilayer piezoelectric elements. The rotational motion of the rotor is generated by the impact head attached to the piezoelectric element. The millimeter-size robot is fitted with six legs on either side of the developed actuator, and can walk on uneven surfaces like an insect. The three leg parts are connected by a link mechanism. The control system is constructed from analog electronic circuits that mimic the behavior of biological neurons. The output signal ports of the controller are connected to the multilayer piezoelectric element. This robot system requires no specialized software programs or A/D converters. The rotation speed of the rotary actuator reaches 60 rpm at an applied AI frequency of 25 kHz. The sideways, endways, and height dimensions of the robot are 4.0, 4.6, and 3.6 mm, respectively. The motion speed is 180.0 mm/min.

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Artificial neural circuit integration for MEMS microrobot system

Saito

Ishihara

Sugita

et al. 2015

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Impact-type MEMS microrobot controlled by bare chip IC of hardware neuron

Tatani

Maezumi

Takato

et al. 2014

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Masaki Tatani

A Millimetre-Sized Robot Realized by a Piezoelectric Impact-Type Rotary Actuator and a Hardware Neuron Model

MEMS Microrobot Controlled by Mounted Neural Networks IC with Two Types Actuators

Piezo impact type MEMS rotary actuator and application to millimeter size AI controlled robot

Artificial neural circuit integration for MEMS microrobot system

Impact-type MEMS microrobot controlled by bare chip IC of hardware neuron

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