Committee |
Date Time |
Place |
Paper Title / Authors |
Abstract |
Paper # |
PEM (2nd) |
2022-10-13 15:00 |
Hiroshima |
National Institute of Technology,Kure college |
Pipe-line remote-sensing utilizing microwave temporal response with Radio-over-Pipewall (RoP) and Radio-over-Fiber (RoF) technologies Kento Katagiri (Mie Univ.), Tadahiro Okuda, Masaya Hazama (Kurimoto), Yui Otagaki, Hiroshi Murata (Mie Univ.) |
We propose a remote diagnostic technique using microwave and Radio-over-Fiber (RoF) technology to efficiently diagnose u... [more] |
|
AP |
2022-03-10 16:00 |
Online |
Online |
[Invited Talk (Young Researcher)]
Study on Non-Destructive Pipeline Inspection Using Microwave Guided-Modes Sayaka Matsukawa (AIST), Kosuke Yoshida (Mie Univ.), Tadahiro Okuda, Masaya Hazama (Kurimoto), Satoru Kurokawa (AIST), Hiroshi Murata (Mie Univ.) AP2021-190 |
We propose a non-destructive inspection method to inspect an unwanted foreign object remaining underneath the wall of th... [more] |
AP2021-190 pp.44-49 |
MW, EST, EMCJ, PEM, IEE-EMC [detail] |
2020-10-22 16:40 |
Online |
Online |
New non-destructive inspection method of FRPM pipeline utilizing temporal and spatial synthesis of microwave guided-modes Sayaka Matsukawa (AIST), Kosuke Yoshida (Mie Univ.), Tadahiro Okuda, Masaya Hazama (KURIMOTO), Satoru Kurokawa (AIST), Hiroshi Murata (Mie Univ.) |
We propose a new non-destructive inspection method for underground fiberglass-reinforced plastic mortar (FRPM) pipelines... [more] |
|
PEM (Workshop) |
2019-11-18 - 2019-11-19 |
Mie |
Sinfonia Technology Hibiki Hall Ise (Ise Tourism and Culture Hall) |
Time-domain Analysis of Microwave Guided-Modes Propagating along FRPM Pipe Wall for Pipeline Inspection Sayaka Matsukawa (AIST), Kosuke Yoshida (Mie Univ.), Tadahiro Okuda, Masaya Hazama (Kurimoto Ltd,), Satoru Kurokawa (AIST), Hiroshi Murata (Mie Univ.) |
We have proposed a new nondestructive inspection technique for underground FRPM pipelines by using microwave guided-mode... [more] |
|
PEM (Workshop) |
2019-11-18 - 2019-11-19 |
Mie |
Sinfonia Technology Hibiki Hall Ise (Ise Tourism and Culture Hall) |
Time Domain Analysis of Reflected Microwave Signal for FRPM Pipeline Inspection to Detect Foreign Objects Kousuke Yoshida (Mie Univ.), Sayaka Matsukawa (AIST), Yoshihiro Nishimura (Mie Univ.), Satoru Kurokawa (AIST), Tadahiro Okuda, Masaya Hazama (Kurimoto Ltd.), Hiroshi Murata (Mie Univ.) |
We have proposed a new non-destructive inspection method for FRPM (Fiberglass Reinforced Plastics Mortar) pipelines usin... [more] |
|
PEM (Workshop) |
2019-11-18 - 2019-11-19 |
Mie |
Sinfonia Technology Hibiki Hall Ise (Ise Tourism and Culture Hall) |
[Poster Presentation]
Measurement of Microwave Field Distribution Propagating along FRPM Pipe-Wall Using Electro-Optic Sensor for Non-Destructive Inspection Yoshihiro Nishimura, Kosuke Yoshida, Sayaka Matsukawa (Mie Univ.), Tadahiro Okuda, Masaya Hazama (Kurimoto Ltd), Satoru Kurokawa (AIST), Hiroshi Murata (Mie Univ.) |
We have proposed and developed a new non-destructive inspection method for buried fiber-reinforced plastic mortal (FRPM)... [more] |
|
EMT, EST, LQE, MWP, OPE, PEM, PN, IEE-EMT [detail] |
2018-01-26 10:20 |
Hyogo |
|
Scattering and Reflection of Microwaves Propagating along Fiber-Reinforced Plastic Mortal Pipe Walls and Applications to Nondestructive Measuremen Yoshiyuki Azuma, Hironori Sasaki, Hiroshi Murata (Osaka Univ.), Tadahiro Okuda, Masaya Hazama (Kurimoto Ltd) |
[more] |
|
PEM (2nd) |
2016-07-01 |
Tokyo |
TMU Akihabara Campus |
Measurement of Microwave Propagation and Scattering Characteristics along a Fiberglass-Reinforced Plastic Mortar Pipe Using Electro-Optic Sensor Yoshiyuki Azuma, Fumiaki Ueno, Hiroshi Murata (Osaka Univ.), Tadahiro Okuda, Masaya Hazama (Kurimoto, Ltd.), Yasuyuki Okamura (Osaka Univ.) |
A new nondestructive inspection method for Fiberglass-Reinforced Plastic Mortar (FRPM) pipes using microwave guided-mode... [more] |
|
LQE, EST, OPE, EMT, PN, MWP, IEE-EMT, PEM [detail] |
2016-01-29 15:55 |
Hyogo |
|
Nondestructive inspection and crack detection of FRPM pipe using electro-optic sensor and microwave guided-mode propagation. Fumiaki Ueno, Yoshiyuki Azuma, Hiroshi Murata (Osaka Univ.), Tadahiro Okuda, Masaya Hazama (Kurimoto), Yasuyuki Okamura (Osaka Univ.) |
[more] |
|
PEM (2nd) |
2015-11-27 - 2015-11-28 |
Kyoto |
Doshisha Univ. |
[Poster Presentation]
Measurement of Microwave Propagation Characteristics along a Fiberglass-Reinforced Plastic Mortar Pipe Using an Electro-Optic Sensor Yoshiyuki Azuma, Fumiaki Ueno, Hiroshi Murata, Yasuyuki Okamura (Osaka Univ.), Tadahiro Okuda, Masaya Hazama (Kurimoto LTD) |
We have proposed a new nondestructive inspection method for fiberglass-reinforced plastic mortar (FRPM) pipes using micr... [more] |
|
MWP |
2015-05-25 10:45 |
Tokyo |
Kikai-Shinko-Kaikan Bldg. |
Nondestructive Measurement for Fiberglass-Reinforced Plastic Mortar Pipes Using Microwave Propagation and Electro-Optic Sensors Fumiaki Ueno, Yoshiyuki Azuma, Hiroshi Murata (Osaka Univ.), Tadahiro Okuda, Masaya Hazama (Kurimoto), Yasuyuki Okamura (Osaka Univ.) MWP2015-3 |
In this report, a nondestructive measurement technique for Fiberglass-Reinforced Plastic Mortar (FRPM) pipes using micro... [more] |
MWP2015-3 pp.13-18 |
OFT, PEM (Joint) |
2015-05-21 16:10 |
Ishikawa |
|
Microwave Guided-Modes Propagating along Fiberglass-Reinforced Plastic Mortal Pipes and their Measurement Using Electro-Optic Sensors Hiroshi Murata, Fumiaki Ueno, Yoshiyuki Azuma, Yasuyuki Okamura (Osaka Univ.), Tadahiro Okuda, Masaya Hazama (Kurimoto Ltd.) |
A new nondestructive inspection method for fiberglass-reinforced plastic mortar (FRPM) pipes using microwave and photoni... [more] |
|
EMCJ, PEM (Joint) |
2014-11-14 13:25 |
Tokyo |
AIST Tokyo Waterfront |
New Nondestructive Measurement for Fiberglass-Reinforced Plastic Mortar Pipes Using Microwave Propagation and Electro-optic Sensors Fumiaki Ueno, Hiroshi Murata, Yasuyuki Okamura (Osaka Univ.), Tadahiro Okuda, Masaya Hazama (Kurimoto) |
A new nondestructive inspection method for fiberglass-reinforced plastic mortar (FRPM) pipes using microwave and photoni... [more] |
|