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Main Authors: Kurokawa, Takeru, Takei, Toshinobu, Noma, Haruo, Ando, Mitsuhito
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2411.05150
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author Kurokawa, Takeru
Takei, Toshinobu
Noma, Haruo
Ando, Mitsuhito
author_facet Kurokawa, Takeru
Takei, Toshinobu
Noma, Haruo
Ando, Mitsuhito
contents Surface inspection is a delicate process aimed at detecting fine defects, irregularities, and foreign substances at the tens of micrometers level, subsequently excluding products that do not meet the quality standards as defective. Currently, this inspection relies on the tactile senses of skilled technicians, leading to variability in the detection accuracy based on the level of proficiency and experience. Consequently, a standardized method for surface inspection has yet to be established. In response to this issue, we have developed a device capable of amplifying tactile information, allowing for the detection of minute distortions without the need for highly skilled technicians. The experimental results on various small distortions suggest the potential for the quantitative evaluation of these distortions. In the future, the application of this device could contribute to the automation of surface inspection.
format Preprint
id arxiv_https___arxiv_org_abs_2411_05150
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Scanning Tactile Sensor with Spiral Coil Structure Amplifying Detection Performance of Micro-concave
Kurokawa, Takeru
Takei, Toshinobu
Noma, Haruo
Ando, Mitsuhito
Human-Computer Interaction
Surface inspection is a delicate process aimed at detecting fine defects, irregularities, and foreign substances at the tens of micrometers level, subsequently excluding products that do not meet the quality standards as defective. Currently, this inspection relies on the tactile senses of skilled technicians, leading to variability in the detection accuracy based on the level of proficiency and experience. Consequently, a standardized method for surface inspection has yet to be established. In response to this issue, we have developed a device capable of amplifying tactile information, allowing for the detection of minute distortions without the need for highly skilled technicians. The experimental results on various small distortions suggest the potential for the quantitative evaluation of these distortions. In the future, the application of this device could contribute to the automation of surface inspection.
title Scanning Tactile Sensor with Spiral Coil Structure Amplifying Detection Performance of Micro-concave
topic Human-Computer Interaction
url https://arxiv.org/abs/2411.05150