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All Technical Committee Conferences (Searched in: All Years)
| Committee | Date Time | Place | Paper Title / Authors | Abstract | Paper # | |
| SANE | 2024-01-19 11:05 |
Miyagi | (Primary: On-site, Secondary: Online) |
On the Electromagnetic Wave Emission from Ground Penetrating Radar Motoyuki Sato (Tohoku Univ.)  SANE2023-95 |
Based on the mechanism of electromagnetic wave radiation to subsurface from ground penetrating radar (GPR), we will disc... [more] | SANE2023-95 pp.34-39 |
| SANE | 2024-01-19 14:15 |
Miyagi | (Primary: On-site, Secondary: Online) |
Study of Pavement Diagnosis by Radar Polarimetry Ryuma Saito, Motoyuki Sato (ALISys) SANE2023-99 |
Polarimetric measurements of pavements using a Full-Polarimetric ground penetrating radar (GPR) were carried out to inve... [more] | SANE2023-99 pp.53-56 |
| AP | 2023-02-17 10:20 |
Miyagi | Tohoku University, Aobayama Campus (Primary: On-site, Secondary: Online) |
Full-polarimetric GPR development for 3D polarized subsurface imaging Ryuma Saito, Motoyuki Sato (Tohoku Univ.) AP2022-222 |
The usage of polarimetric information in ground-penetrating radar (GPR) measurements not only improves GPR target detect... [more] | AP2022-222 pp.139-144 |
| SANE | 2021-11-12 09:20 |
Online | Online | Design and evaluation of a full-polarimetric ground penetrating radar system Tomohiro Kondo, Motoyuki Sato (Tohoku Univ.) SANE2021-52 |
We are developing a ground penetrating radar(GPR) that can acquire all components of the polarization scattering matrix ... [more] | SANE2021-52 pp.106-109 |
| SANE | 2021-11-12 12:30 |
Online | Online | Landmine detection with model-based homogeneity to extend compressed sensing Ryuta Imai, Yicheng Song, Ryo Natsuaki, Akira Hirose (Tokyo Univ.) SANE2021-55 |
This paper proposes model-based homogeneity (MBH) to extend compressed sensing (CS) for landmine-detection ground penetr... [more] | SANE2021-55 pp.124-129 |
| AP | 2021-10-07 13:00 |
Online | Online | [Poster Presentation]
Optimization of Cross Bow-Tie Antenna Polarization Switching by PIN Diode Yuki Shigeta, Motoyuki Sato (Tohoku Univ.) AP2021-78 |
We are developing a cross bow-tie antenna with a polarization switching for a ground penetrating radar (GPR) array syste... [more] | AP2021-78 pp.47-48 |
| MW, AP (Joint) |
2021-09-10 14:40 |
Online | Online | Inverse Scattering Based Permittivity Reconstruction Method for Multi-layered Subsurface Structure Analysis by Ground Penetrating Radar Yoshihiro Yamauchi, Shouhei Kidera (UEC) AP2021-66 |
Ground-penetrating radar (GPR) is promising for plastic mine detection, archaeological and geological surveys. The major... [more] | AP2021-66 pp.53-58 |
| AP, SANE, SAT (Joint) |
2021-07-29 10:25 |
Online | Online | Design and evaluation of a cross bow-tie antenna Tomohiro Kondo, Motoyuki Sato (Tohoku Univ.) AP2021-33 |
A cross bow-tie antenna for full polarimetric ground penetrating radar (GPR), operating at 10 MHz-1.5 GHz is designed an... [more] | AP2021-33 pp.55-60 |
| MW, AP (Joint) |
2020-09-24 12:50 |
Online | Online | [Poster Presentation]
A study on landmine imaging by handheld GPR ALIS Tomohiro Kondo, Kazutaka Kikuta, Motoyuki Sato (Tohoku Univ.) AP2020-34 |
For humanitarian demining, we are developing a hand-held ground penetrating radar (GPR) ALIS, as an alternative tool to ... [more] | AP2020-34 pp.15-20 |
| SAT, SANE (Joint) |
2020-02-20 14:40 |
Okinawa | Validation of buried pipe detecting method using ground penetrating radar Yuya Iwaki, Takehiro Hoshino, Kei Suwa (MELCO) SANE2019-116 |
With respect to buried pipe assessment using the ground penetrating radar (GPR) profiles, an automated pipe detection me... [more] | SANE2019-116 pp.97-102 |
|
| AP, SANE, SAT (Joint) |
2019-07-18 09:00 |
Miyagi | Tohoku Univ. | High-resolution horizontal permittivity distribution estimation of pavement using array ground penetrating radar Kazutaka Kikuta, Motoyuki Sato (Tohoku Univ.) SANE2019-24 |
In order to detect pavement damage on airport taxiway, we applied a novel method to common midpoint (CMP) dataset obtain... [more] | SANE2019-24 pp.31-36 |
| AP, SANE, SAT (Joint) |
2019-07-19 14:30 |
Miyagi | Tohoku Univ. | 2D Interpolation of GPR Common Midpoint Profile by Using Radial Basis Function Neural Networ k Changyu Zhou, Motoyuki Sato (Tohoku-dai) SANE2019-34 |
A new velocity analysis algorithm for Ground Penetrating Radar (GPR) is investigated. GPR provides the common mid-point ... [more] | SANE2019-34 pp.91-96 |
| MW (2nd) |
2019-06-26 - 2019-06-28 |
Overseas | RUS, Bangkok, Thailand | Ground Penetrating Radar C-Scan Imaging Using Migration Technique Sirisak Nongpromma, Kiattisak Yochanang, Akkarat Boonpoonga (KMUTNB) |
C-scan ground penetrating radar (GPR) imagery that the underground scatterers generally exhibit defocused, 2-dimension A... [more] | |
| MW (2nd) |
2019-06-26 - 2019-06-28 |
Overseas | RUS, Bangkok, Thailand | Experimentation for Electrical Properties of Layered-Soil using Ground Penetrating Radar Nattawat Chantasen, Worrathep Chompoosawat, Akkarat Boonpoonga (KMUTNB), Kamol Kaemarungsi, Krit Athikulwongse (NSTDA) |
This paper studies the electrical properties of the layered-soil using ground penetrating radar. The main advantages of ... [more] | |
| NC, MBE (Joint) |
2019-03-05 15:00 |
Tokyo | University of Electro Communications | Application of phase information and complex-valued self-organizing map for C-scan analysis in radar imaging Soshi Shimomura, Akira Hirose (UTokyo) NC2018-69 |
We propose an adaptive subsurface three-dimensional visualization system based on a complex-valued self-organizing map (... [more] | NC2018-69 pp.133-137 |
| PN, EMT, OPE, EST, MWP, LQE, IEE-EMT [detail] | 2019-01-18 14:45 |
Osaka | Osaka University Nakanoshima Center | Super-resolution for GPR Images by Deep Learning Using Generative Adversarial Networks Jun Sonoda (NIT, Sendai), Tomoyuki Kimoto (NIT, Oita) PN2018-75 EMT2018-109 OPE2018-184 LQE2018-194 EST2018-122 MWP2018-93 |
Recently, deterioration of social infrastructures such as tunnels and bridges become a serious social problem. It is req... [more] | PN2018-75 EMT2018-109 OPE2018-184 LQE2018-194 EST2018-122 MWP2018-93 pp.237-242 |
| EMT, IEE-EMT | 2018-11-15 11:40 |
Tottori | Kaike Grand Hotel Tensui(Yonago, Tottori) | 3D ground penetrating radar based on adaptive processing of time-domain phase information by using complex-valued self-organizing map Soshi Shimomura, Akira Hirose (Univ. Tokyo) EMT2018-46 |
We propose an adaptive subsurface 3D visualization system based on a complex-valued self-organizing map (CSOM). Conventi... [more] | EMT2018-46 pp.19-24 |
| EST, MW, EMCJ, IEE-EMC [detail] | 2018-10-19 13:35 |
Aomori | Hachinohe Chamber of Commerce and Industry(Hachinohe city, Aomori) | Underground Model Inversion from GPR Images by Deep Learning Using Generative Adversarial Networks Jun Sonoda (NIT, Sendai), Tomoyuki Kimoto (NIT, Oita) EMCJ2018-53 MW2018-89 EST2018-75 |
Recently, deterioration of social infrastructures such as tunnels and bridges become a serious social problem. It is req... [more] | EMCJ2018-53 MW2018-89 EST2018-75 pp.115-119 |
| EST | 2018-09-06 16:05 |
Okinawa | Kumejima-machi, Okinawa | Clutter Reduction from GPR Image by Deep Learning Using Generative Adversarial Network Jun Sonoda (NIT, Sendai College), Tomoyuki Kimoto (NIT, Oita College) EST2018-51 |
Recently, deterioration of social infrastructures such as tunnels and bridges become a serious social problem. It is req... [more] | EST2018-51 pp.47-51 |
| EST, MW, OPE, MWP, EMT, IEE-EMT, THz [detail] | 2018-07-19 15:20 |
Hokkaido | GPR Image Recognition by Transfer Learning with FDTD Simulation on Deep Learning Jun Sonoda (NIT, Sendai), Tomoyuki Kimoto (NIT, Oita) EMT2018-17 MW2018-32 OPE2018-20 EST2018-15 MWP2018-16 |
In this study, to automatically detect underground objects from the ground penetrating radar (GPR) images by the deep ne... [more] | EMT2018-17 MW2018-32 OPE2018-20 EST2018-15 MWP2018-16 pp.59-62 |
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