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All Technical Committee Conferences (Searched in: All Years)
| Committee | Date Time | Place | Paper Title / Authors | Abstract | Paper # | |
| US | 2024-06-28 10:50 |
Ishikawa | Shiinoki Cultural Complex, Ishikawa Prefecture | Relation between intensity of waves and durability of floating flames using multiple ultrasonic sources. Kazuki Matuoka, Hiroyuki Shiraishi (Daido Univ) |
(To be available after the conference date) [more] | |
| US | 2024-06-28 15:25 |
Ishikawa | Shiinoki Cultural Complex, Ishikawa Prefecture | Effects of changes in the intensity of airborne ultrasound standing waves on the behavior of levitated droplets Takaya Hirayama, Daisuke Koyama (Doshisha Univ.) |
(To be available after the conference date) [more] | |
| US | 2024-06-28 15:50 |
Ishikawa | Shiinoki Cultural Complex, Ishikawa Prefecture | Simulation of light propagation in refractive index gradient induced by high-intensity ultrasonic irradiation in the VHF range Yuki Harada (Doshisha Univ.), Mutsuo Ishikawa (Toin Univ. of Yokohama), Mami Matsukawa, Daisuke Koyama (Doshisha Univ.) |
(To be available after the conference date) [more] | |
| WIT, IPSJ-AAC | 2024-03-18 10:25 |
Ibaraki | Tsukuba University of Technology (Primary: On-site, Secondary: Online) |
AR Onomatopoeia Teaching System that Interactively Displays Onomatopoeia by Environmental Sound Recognition Yuito Arisumi, Yutaro Hirao, Monica Perusquia-Hernandez (NAIST), Naoya Isoyama (Otsuma Women's University), Hideaki Uchiyama, Kiyoshi Kiyokawa (NAIST)  WIT2023-40 |
In recent years, due to the increase in foreign residents and the expansion of social participation among people with he... [more] | WIT2023-40 pp.7-12 |
| US | 2024-01-25 13:30 |
Online | Online | Airborne ultrasound radiation characteristics of compact ultrasound emitter using annular piezoelectric ceramics in higher-order mode driving Yusuke Miyasaka, Kyosuke Shimizu, Ayumu Osumi, Youichi Ito (Nihon Univ.) US2023-69 |
We have investigated the application of an Airborne Ultrasound Phased Array (AUPA) to non-destructive testing. A main lo... [more] | US2023-69 pp.1-5 |
| US | 2024-01-25 14:45 |
Online | Online | The use of ultrasound /immunology on the treatment of pancreas cancer
-- Overcoming the most intractable malignancy -- Kazuhide Okada (NTMC) US2023-72 |
Although 51% of women and two out of three men in Japan are currently affected by development of cancer in their lifetim... [more] | US2023-72 pp.15-20 |
| US | 2023-11-27 15:20 |
Shizuoka | Shizuoka University | Study of pulse inversion method using nonlinearity by high-intensity airborne ultrasound Taiju Kamitani, Kyosuke Shimizu, Youichi Ito, Ayumu Osumi (Nihon Univ.) US2023-52 |
Non-destructive testing is an important technique for the safe and long-term use of structures. For example, large metal... [more] | US2023-52 pp.50-54 |
| US | 2023-06-16 15:45 |
Kyoto | Muromachi Campus, Doshisha University | Principle of needle tip detection in ultrasound-guided vertical puncture
-- Simulation and experimental consideration using ultrasound-guided wave -- Yuusuke Tanaka (Japan Probe), Katsuhiko Tanaka (Former Ritsumeikan Univ.) US2023-14 |
Current ultrasound-guided puncture is performed at an angle to the direction of ultrasound transmission and requires hig... [more] | US2023-14 pp.26-31 |
| US | 2023-05-18 14:35 |
Tokyo | Surugadai Campus, Nihon University | Structural optimization of the first parabolic reflector of DPLUS Shoki Ieiri, KyoHei Yamada, Chen Kang, Takeshi Morita (The Univ. of Tokyo) US2023-6 |
A high-frequency ultrasonic transducer with focusing mechanism using two parabolic surfaces (DPLUS) is structurally opti... [more] | US2023-6 pp.28-32 |
| US | 2023-05-18 15:25 |
Tokyo | Surugadai Campus, Nihon University | Aerial intense ultrasonic source integrating the horn and vibrating plate
-- Distance between the vibrating plates is set to one wavelength -- Hikaru Miura (Nihon Univ.) US2023-8 |
The author is studying an ultrasonic source that integrates each element of an aerial high-intensity ultrasonic source, ... [more] | US2023-8 pp.39-44 |
| EA, US (Joint) |
2022-12-22 13:30 |
Hiroshima | Satellite Campus Hiroshima | [Poster Presentation]
Study on the induced potential in bone by ultrasonic propagation
-- Simulation by PE-FDTD method -- Hidehisa Suzuyama, Taisei Tsubata, Keigo Maehara (Doshisha Univ.), Atsushi Hosokawa (NIT, Akashi College), Takao Tsuchiya, Mami matsukawa (Doshisha Univ.) US2022-50 |
LIPUS has been reported to shorten the healing time of fractures by 30-40 %. However, the initial mechanism of the heali... [more] | US2022-50 pp.1-5 |
| EA, US (Joint) |
2022-12-22 16:50 |
Hiroshima | Satellite Campus Hiroshima | [Poster Presentation]
Selection of light sources and amplification with fiber amplifier in fiber optic reflection ultrasonic probe Jumpei Hayakawa, Yuji Wada, Kentaro Nakamura (Tokyo Tech) US2022-60 |
Currently, application of high intensity airborne ultrasound in high frequency band is expanding. For evaluating such in... [more] | US2022-60 pp.50-55 |
| EA, US (Joint) |
2022-12-23 13:30 |
Hiroshima | Satellite Campus Hiroshima | [Invited Talk]
Development of Aerial Intense Ultrasonic Source Integrating Horns and Vibrating Plates Hikaru Miura (Nihon Univ.) US2022-67 |
The components of conventional high-intensity aerial ultrasound sources, including the horn, longitudinal vibrating reso... [more] | US2022-67 pp.92-97 |
| US | 2022-11-29 14:35 |
Toyama | Consortium of universities in toyama | Effect of refractive index change in water induced by 100-megahertz-range high-intensity ultrasound on the incident light Yuki Harada (Doshisha Univ.), Mutsuo Ishikawa (Toin Univ. of Yokohama), Inamoto Shuto, Mami Matsukawa, Daisuke Koyama (Doshisha Univ.) US2022-46 |
High frequency ultrasound transducers are used in various fields such as non-destructive tests and imaging techniques fo... [more] | US2022-46 pp.17-20 |
| US | 2022-07-29 10:55 |
Fukuoka | Kyushu Univ. (Chikushi Campus) | Nanoparticle Measurements by Focused-Beam Dynamic Ultrasound Scattering Method Kana Kitao, Tomohisa Norisuye (KIT) US2022-20 |
When megahertz ultrasound is incident on nanoparticles, scattering occurs, but the intensity is quite small. This proble... [more] | US2022-20 pp.5-7 |
| US | 2022-07-29 14:45 |
Fukuoka | Kyushu Univ. (Chikushi Campus) | Construction of ultrasonic irradiation system to promote plant growth Shugo Saito, Taiga Abe, Tatsuki Yamagishi, Xiangbo Kong, Takeshi Kumaki (Rits Univ) US2022-25 |
In recent years, Japan's agriculture has seen a decline in the number of workers and an aging population. Reduction of f... [more] | US2022-25 pp.26-31 |
| US | 2022-05-19 10:00 |
Tokyo | Kikai-Shinko-Kaikan Bldg. | Study of non-contact, non-destructive test using nonlinear airborne ultrasound
-- Visualization of leaky waves from thin plate -- Fumiya Hamada, Kyosuke Shimizu, Ayumu Osumi, Youichi Ito (Nihon Univ.) US2022-1 |
As one of an efficient testing method for large metal structures is a combination of scanning airborne ultrasound source... [more] | US2022-1 pp.1-5 |
| US | 2022-05-19 10:25 |
Tokyo | Kikai-Shinko-Kaikan Bldg. | Development of Ultrasonic Phased Array using High-Intensity Transducers Takayuki Hoshi, Yoshiki Ooka (PxDT) US2022-2 |
We developed a phased array that can drive 271 specially made ultrasonic transducers individually, that can emit more po... [more] | US2022-2 pp.6-7 |
| US | 2022-05-19 13:25 |
Tokyo | Kikai-Shinko-Kaikan Bldg. | Performance evaluation of tough hydrophone
-- Durability evaluation in focused ultrasound field -- Fujimaru Kaise (Toin Univ. of Yokohama), Michihisa Shiiba (Nihon Institute of Medical Science), Nagaya Okada (HONDA ELECTRONICS CO., LTD), Takshi Morishita, Toshio Sato (Toin Univ. of Yokohama), Shinichi Takeuchi (Tokyo City Univ./Toin Univ. of Yokohama) US2022-6 |
We have been developing and evaluating tough hydrophones using titanium front plate, titanium backing and a hydrothermal... [more] | US2022-6 pp.21-25 |
| US | 2022-02-24 15:10 |
Online | Online | Basic study of guided wave pulse compression by airborne ultrasound excitation Kyosuke Shimizu, Ayumu Osumi, Youichi Ito (Nihon Univ.) US2021-72 |
We have studied the non-contact material evaluation method using an airborne ultrasound phased array (AUPA) as the scann... [more] | US2021-72 pp.16-20 |
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