Research theme for competitive and other funds (9):
2008 - 2012 低コスト型70MPa級水素ガス充填対応大型複合蓄圧器の開発
2000 - 2001 Development of a Practical Laser-Guided Deep-Hole Boring Robot
1998 - 1999 レーザ誘導方式深穴評価プローブの開発
1998 - 1999 画像処理による工具形状自動計測システムの開発
1996 - 1997 Solution of dynamic cutting mechanism of ultrasonic viration assisted micro drilling
1996 - 1997 Development of an in-process inner diameter and roundness measuring instrument
1995 - 1995 画像処理によるドリル自動計測システムの開発
1994 - 1995 Development of an intelligent deep-hole boring tool
1994 - 1994 画像処理によるドリル自動計測アルゴリズムの開発
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Papers (41):
Hiroshi Murakami, Kosuke Uchiyama, Akio Katsuki, Takao Sajima, Kunitaka Fujiyoshi. Development of a High-Function Fiber Stylus for Microstructure Measurement with Water-Repellent and Antistatic Coatings. Applied Sciences. 2023
Hiroshi Murakami, Hiroki Murakami, Akio Katsuki, Takao Sajima, Kosuke Uchiyama. Development of a two-step stylus with elastic hinge for microstructure measurement to improve sensitivity and vibration characteristics. Precision Engineering. 2023. Vol. 80. No.4,
Kosuke Uchiyama, Hiroshi Murakami, Akio Katsuki, Takao Sajima. Development of a Sharp-Tipped L-Shaped Stylus for Measurement of Nanoscale Sidewall Features. International Journal of Automation Technology. 2022. Vol. 16. No.4,
Hiroshi Murakami, Akio Katsuki, Takao Sajima, Kosuke Uchiyama, Yudai Sata. Development of the contact detection method in free-form surface of the optical fiber probe for microstructure measurement using long short term memory. Measurement: Sensors. 2021. 2021. 18
Uchiyama Kosuke, Hiroshi Murakami, Akio Katsuki, Takao Sajima. Fabrication Method of an L-Shaped Stylus with a Sharp Tip for Measuring Wall Roughness. Proceedings of The 10th International Conference on Leading Edge Manufacturing Technologies in 21st Century (LEM21). 2021. 2021. 370-373
Fabrication Method of an L-Shaped Stylus with a Sharp Tip for Measuring Wall Roughness
(10th International Conference on Leading Edge Manufacturing Technologies in 21st Century (LEM21) 2021)
Development of the contact detection method in free-form surface of the optical fiber probe for microstructure measurement using deep learning
(XXIII IMEKO World Congress (IMEKO2021) 2021)
