Committee |
Date Time |
Place |
Paper Title / Authors |
Abstract |
Paper # |
US |
2024-01-25 13:55 |
Online |
Online |
Design of small ultrasonic sound source with square emitting surface using FEM Takuya Asami, Haruki Takahashi, Hikaru Miura (Nihon Univ.) US2023-70 |
In this paper, we propose a sound source with a resonant frequency of 60 kHz and a square emitting surface as a small ul... [more] |
US2023-70 pp.6-9 |
US |
2023-11-27 14:10 |
Shizuoka |
Shizuoka University |
Acoustic Manipulation in Air Using Small Sound Sources Nozomu Hashiba (AIT), Masahiro Toyoda (Honda Elec.), Shin-ichi Hatanaka (Utsunomiya Univ.), Teruyuki Kozuka (AIT) US2023-50 |
Small-scale acoustic manipulation was attempted to manipulate a small object in the air. Three small sound source units ... [more] |
US2023-50 pp.40-43 |
US |
2023-07-27 16:40 |
Fukuoka |
West Japan General Exhibition Center Annex |
Experimental study on phase control of airborne ultrasound using thin films Youichi Ito (Nihon Univ.) US2023-23 |
Abstract Various applied technologies using powerful airborne ultrasonic waves have been developed, and their use in va... [more] |
US2023-23 pp.28-33 |
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 |
US |
2023-01-25 13:55 |
Online |
Online |
Experimental verification of compact airborne ultrasound emitter using annular piezoelectric ceramics Chiharu Asano, Kyosuke Shimizu, Osumi Ayumu, Ito Youichi (Nihon Univ.) US2022-72 |
We have studied scanning elastic wave source technique using Airborne Ultrasound Phased Array (AUPA) as one of non-conta... [more] |
US2022-72 pp.7-11 |
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 |
2022-05-19 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 |
2022-02-24 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 |
US |
2021-07-30 14:55 |
Online |
Online |
Radiation of sound waves of airborne ultrasound phased array using chirp signals Kyosuke Shimizu, Ayumu Osumi, Youichi Ito (Nihon Univ.) US2021-22 |
We have studied a new method of non-contact evaluation of material that using hi-speed scanning of airborne ultrasound i... [more] |
US2021-22 pp.20-25 |
US |
2021-06-18 14:30 |
Online |
Online |
Construction of discrimination support system using GAN for non-destructive testing images by scanning elastic wave source technique Kyosuke Shimizu, Ayumu Osumi, Youichi Ito (Nihon Univ.) US2021-11 |
We proposed Scanning Airborne Ultrasound Source Technique (SAUA). SAUS is a detecting method of thinning defects generat... [more] |
US2021-11 pp.18-22 |
US |
2021-05-17 14:50 |
Online |
Online |
Visualization of guided wave propagation using scanning nonlinear elastic wave source technique with airborne ultrasound phased array Kyosuke Shimizu, Ayumu Osumi, Youichi Ito (Nihon Univ.) US2021-3 |
We aim to realize a scanning laser source technique (SLS) by using high-intensity airborne ultrasonic waves.
As one of ... [more] |
US2021-3 pp.12-15 |
US |
2021-02-22 13:00 |
Online |
Online |
Development of truncated cone shaped reflective plate type aerial ultrasonic source using planar reflective plate Shinnosuke Uchiyama, Takuya Asami, Hikaru Miura (Nihon Univ.) US2020-66 |
The technology which delivers the powerful aerial sound wave with the sharp directivity to the long distance is required... [more] |
US2020-66 pp.1-4 |
US |
2021-02-22 13:25 |
Online |
Online |
Sound Emission Characteristics of Compact Circular Vibrating Plate Type Ultrasonic Source with an Arched Strut Hiroki Monzen, Takuya Asami, Hikaru Miura (Nihon Univ.) US2020-67 |
Since aerial ultrasonic sensors are required to be small, it is difficult to generate powerful sound waves. In this stud... [more] |
US2020-67 pp.5-9 |
US |
2021-02-22 13:50 |
Online |
Online |
Investigation of ultrasound emitter diameter and suppression of grating lobe of an airborne ultrasound phased array Kyosuke Shimizu, Ayumu Osumi, Youichi Ito (Nihon Univ.) US2020-68 |
There is a scanning laser source technique (SLS) for performing high-speed measurement by scanning a laser
excitation s... [more] |
US2020-68 pp.10-13 |
US |
2020-05-18 15:25 |
Online |
Online |
Study of small type aerial ultrasonic source using hollow stepped horn and circular plate Takuya Asami, Hiroki Monzen, Hikaru Miura (Nihon Univ.) US2020-12 |
We have proposed a small aerial ultrasonic sound source using a disk of vibration mode which does not generate nodes of ... [more] |
US2020-12 pp.25-29 |
SP, EA, SIP |
2020-03-03 09:00 |
Okinawa |
Okinawa Industry Support Center (Cancelled but technical report was issued) |
[Poster Presentation]
Basic Examination on Omni-Directional Sound Source Using Facing Ultrasonic Sensor Arrays Kyoka Okamoto, Kan Okubo (TMU) EA2019-147 SIP2019-149 SP2019-96 |
Omnidirectional sound sources have been used for various purposes and have been studied for a long time. Ultrasonic sens... [more] |
EA2019-147 SIP2019-149 SP2019-96 pp.267-271 |
US |
2020-02-28 14:00 |
Tokyo |
|
Received waveform evaluation of high flexible ultrasonic probe and analysis of ultrasonic propagation Yuusuke Tanaka, Mitsuyoshi Yoshida, Yasuyuki Takane, Hidekazu Hoshino, Yukio Ogura (Japan Probe) US2019-102 |
Since the vibrator portion of a flexible ultrasonic probe capable of performing ultrasonic measurement from a curved sur... [more] |
US2019-102 pp.19-23 |
US |
2020-02-28 15:05 |
Tokyo |
|
Aerial ultrasonic source using high-intensity pulse laser Koji Aizawa, Takeo Yamakoshi, Takaaki Oda (KIT) US2019-104 |
It was experimentally shown that an intense aerial pulsed ultrasonic can be generated by irradiating a pulse laser to a ... [more] |
US2019-104 pp.29-33 |
EA, US (Joint) |
2020-01-22 10:30 |
Kyoto |
Doshisha Univ. |
[Poster Presentation]
Drying of cloth containing water by aerial intense standing wave sound field formed by a striped mode vibrating plate Tomoya Nakamura, Takuya Asami, Hikaru Miura (Nihon Univ) US2019-74 EA2019-87 |
Recently, a method to accelerate drying by applying ultrasonic vibration directly to clothes has been studied. This meth... [more] |
US2019-74 EA2019-87 pp.23-27 |