Takumi Kawasetsu scite author profile

Takumi Kawasetsu

5Publications

90Citation Statements Received

90Citation Statements Given

How they've been cited

159

How they cite others

Affiliations

Osaka University, The University of Tokyo

Publications

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Mexican-Hat-Like Response in a Flexible Tactile Sensor Using a Magnetorheological Elastomer

Kawasetsu

Horii

Ishihara

et al. 2018

Sensors

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A significant challenge in robotics is providing a sense of touch to robots. Even though several types of flexible tactile sensors have been proposed, they still have various technical issues such as a large amount of deformation that fractures the sensing elements, a poor maintainability and a deterioration in the sensitivity caused by the presence of a thick and soft covering. As one solution for these issues, we proposed a flexible tactile sensor composed of a magnet, magnetic transducer and dual-layer elastomer, which consists of a magnetorheological and nonmagnetic elastomer sheet. In this study, we first investigated the sensitivity of the sensor, which was found to be high (approximately 161 mV/N with a signal-to-noise ratio of 42.2 dB); however, the sensor has a speed-dependent hysteresis in its sensor response curve. Then, we investigated the spatial response and observed the following results: (1) the sensor response was a distorted Mexican-hat-like bipolar shape, namely a negative response area was observed around the positive response area; (2) the negative response area disappeared when we used a compressible sponge sheet instead of the incompressible nonmagnetic elastomer. We concluded that the characteristic negative response in the Mexican-hat-like response is derived from the incompressibility of the nonmagnetic elastomer.

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Flexible Tri-Axis Tactile Sensor Using Spiral Inductor and Magnetorheological Elastomer

et al. 2018

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Soft Inductive Tactile Sensor Using Flow-Channel Enclosing Liquid Metal

Hamaguchi

Kawasetsu

Horii

et al. 2020

IEEE Robot. Autom. Lett.

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There are structural challenges in increasing the softness of conventional soft tactile sensors because rigid electrical elements have to be installed around the sensing areas, which should be compressive, stretchable, and durable. To solve these issues, we propose an inductive tactile sensor whose silicone-rubber body has only two liquid-metal reservoirs connected by an elongated flow channel. When one reservoir is placed around the sensing area, another one can be placed at a non-sensing area. Furthermore, in this structure, touch can be detected by monitoring the inflow and outflow of the liquid-metal in the latter reservoir by using a separately placed coil circuit based on the eddy-current effect. The proposed method requires no direct electrical connections with liquid metal in the reservoirs or flow channels. This means that the sensor body has no inhibitor that reduces its compressibility and stretchability, and that deteriorates its durability. The experimental results demonstrated that larger reservoir diameters provided larger sensitivity and higher signal-to-noise ratio of approximately 65 dB. Additionally, we observed that the bending of the body does not affect the sensor response as much as gravity. Therefore, we conclude that our sensor has structural advantages for tactile-sensor installation, especially in soft actuators, because our completely soft sensor does not experience reduction or deterioration in its functionality owing to its softness.

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Flexible and Soft Inductive Tri-axis Tactile Sensor Using Liquid Metal as Sensing Target

Kawasetsu

Niiyama

Kuniyoshi

2019

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Size dependency in sensor response of a flexible tactile sensor based on inductance measurement

Kawasetsu

Horii

Ishihara

et al. 2017

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