| IEICE Technical Committee Submission System Conference Schedule |
Online Proceedings [Sign in] Tech. Rep. Archives |
All Technical Committee Conferences (Searched in: All Years)
| Committee | Date Time | Place | Paper Title / Authors | Abstract | Paper # | |
| RCC, ISEC, IT, WBS | 2024-03-13 11:10 |
Osaka | Osaka Univ. (Suita Campus) | Position Estimation Accuracy of Mobile User based on Multiple Observation of Doppler-shifts in Positioning System using Unmanned Aerial Vehicle Hideaki Ito, Hiroyasu Ishikawa (Nihon Uniuv.)  IT2023-85 ISEC2023-84 WBS2023-73 RCC2023-67 |
In the typical unmanned aircraft system (UAS) which provides temporal communication services under emergency and rescue ... [more] | IT2023-85 ISEC2023-84 WBS2023-73 RCC2023-67 pp.66-71 |
| ITS, WBS, RCC | 2023-12-22 14:25 |
Okinawa | (Primary: On-site, Secondary: Online) |
Performance Evaluation of Mobile User Position Estimation Method in Positioning System using Unmanned Aerial Vehicle Hideaki Ito, Hiroyasu Ishikawa (Nihon Univ) WBS2023-57 ITS2023-40 RCC2023-51 |
In the typical unmanned aircraft system (UAS) which provides temporal communication services under emergency and rescue ... [more] | WBS2023-57 ITS2023-40 RCC2023-51 pp.150-155 |
| RCS, SAT (Joint) |
2023-08-31 12:45 |
Nagano | Naganoken Nokyo Building, and online (Primary: On-site, Secondary: Online) |
[Invited Lecture]
Vehicular-to-Vehicular Communication System for UAV Collision Avoidance and Formation Flight Lin Shan, Ryu Miura, Takashi Mastuda, Miho Koshikawa, Huan-Bang Li, Takeshi Matsumura (NICT) SAT2023-36 RCS2023-107 |
The exponential growth of unmanned aerial vehicles (UAVs) or drones in recent years has raised concerns about their safe... [more] | SAT2023-36 RCS2023-107 pp.19-23(SAT), pp.31-35(RCS) |
| RCC, ISEC, IT, WBS | 2023-03-15 16:10 |
Yamaguchi | (Primary: On-site, Secondary: Online) |
Performance Improvements of Positioning Accuracy Based on Multiple Observations of Doppler shift for User Position Detection System Using Unmanned Aerial Vehicles Taiga Deguchi, Hiroyasu Ishikawa (Nihon Univ.) IT2022-126 ISEC2022-105 WBS2022-123 RCC2022-123 |
A typical Unmanned aircraft system (UAS) employs the unmanned aerial vehicle (UAV) with the velocity of 40 to 100 km/h a... [more] | IT2022-126 ISEC2022-105 WBS2022-123 RCC2022-123 pp.366-371 |
| RCC, WBS, SAT, MICT | 2022-05-26 13:25 |
Online | Online | Improvement effect of positioning accuracy for user 3D position detection system using three unmanned aerial vehicles Taira Fukaya, Hiroyasu Ishikawa (Nichidai) WBS2022-7 RCC2022-7 SAT2022-7 MICT2022-7 |
A typical Unmanned aircraft system (UAS) employs the unmanned aerial vehicle (UAV) with the velocity of 40 to 100 km/h a... [more] | WBS2022-7 RCC2022-7 SAT2022-7 MICT2022-7 pp.28-33 |
| SAT, SANE (Joint) |
2022-02-24 16:15 |
Online | Online | Performance Evaluation of Frequency Offset Compensation Method for Doppler Shift Multiple Observations in User Position Detection System using Unmanned Aerial Vehicles Akira Yamanaka, Hiroyasu Ishikawa (Nihon Univ.) SAT2021-59 |
A typical Unmanned aircraft system (UAS) employs the unmanned aerial vehicles (UAV) with the velocity 40 to 100km/h and ... [more] | SAT2021-59 pp.39-44 |
| SAT | 2021-10-08 13:30 |
Online | Online | Positioning Accuracy Improvement Effect Based on Multiple Observations of Doppler shift for User Position Detection System Using Unmanned Aerial Vehicles Hiroyasu Ishikawa (Nihon Univ.), Hideyuki Shinonaga (Toyo Univ.) SAT2021-50 |
Several unmanned aerial vehicles (UAVs), traveling at a velocity of 40–100 km/h and with an altitude of 150–1,000 m, are... [more] | SAT2021-50 pp.36-41 |
| AP, SANE, SAT (Joint) |
2021-07-28 14:55 |
Online | Online | Performance Evaluation of user 3D position detection method using 3 unmanned aerial vehicles Taira Fukaya, Hiroyasu Ishikawa (Nihon Univ.) SAT2021-22 |
A typical Unmanned aircraft system (UAS) employs the unmanned aerial vehicle (UAV) with the velocity of 40 to 100 km/h a... [more] | SAT2021-22 pp.12-17 |
| SAT | 2020-12-11 09:00 |
Online | Online | Study of Doppler-shift estimation method for user position detection system using unmanned aerial vehicles in a multipath environment Naoya Kezuka, Hiroyasu Ishikawa (Nihon Univ.) SAT2020-23 |
A typical Unmanned aircraft system (UAS) is composed of several unmanned aerial vehicles (UAVs) and a ground station. It... [more] | SAT2020-23 pp.1-6 |
| SAT | 2019-10-11 16:10 |
Fukuoka | JR HAKATA CITY {10F RoomA+B} | Performance Evaluation of Maximum Estimation Error of User Position Detection Method using Single Unmanned Aerial Vehicle Hiroyasu Ishikawa, Yuki Horikawa (Nihon Univ.), Hideyuki Shinonaga (Toyo Univ.) SAT2019-64 |
In the typical unmanned aircraft systems (UASs), several unmanned aerial vehicles (UAVs) traveling at a velocity of 40–1... [more] | SAT2019-64 pp.121-126 |
| SANE | 2019-08-23 15:00 |
Tokyo | Electric Navigation Research Institute | Discrepancy of Measured Altitude from Difference in Measurement Methods and its Compensation
-- Sharing Position Data between Manned and small Unmanned Aircraft -- Daichi Toratani, Hiroko Hirabayashi, Akiko Kohmura (MPAT) SANE2019-42 |
As the number of flights with small unmanned aircraft systems (sUAS, also known as drone) increases, there is the possib... [more] | SANE2019-42 pp.43-48 |
| AP, SANE, SAT (Joint) |
2019-07-19 11:15 |
Miyagi | Tohoku Univ. | Performance evaluations of position detection method using unmanned aerial vehicles based on maximum positioning error estimation method Yuki Horikawa, Hiroyasu Ishikawa (Nihon Univ.) SAT2019-16 |
A typical Unmanned aircraft system (UAS) is composed of several unmanned aerial vehicles (UAVs) and a ground station. It... [more] | SAT2019-16 pp.43-48 |
| SANE, SAT (Joint) |
2019-02-14 15:15 |
Kagoshima | Tanegashima Island | [Invited Talk]
International Standardization Activities on UAS Command and Control Link Takeshi Tomoda, Takako Kitahara (MRI) SAT2018-67 |
Along with the global expansion of the use of unmanned aircraft systems (UAS), international discussion on the command a... [more] | SAT2018-67 pp.59-62 |
| SAT, RCS (Joint) |
2018-08-10 13:05 |
Iwate | Iwate University | Accuracy estimation for position detection method using unmanned aerial vehicles based on positioning accuracy index Hiroyasu Ishikawa, Yuki Horikawa, Yuki Saito (Nihon Univ.) SAT2018-42 |
In a typical unmanned aircraft systems (UASs) model, several unmanned aerial vehicles (UAVs) traveling at a velocity of ... [more] | SAT2018-42 pp.73-78 |
| AP, SANE, SAT (Joint) |
2018-07-18 14:55 |
Hokkaido | Hokkaido Univ. | A Study on the Efficient Transmission Mode Selection Technique for Data Transmission in Unmanned Aircraft System Takeru Kitagawa, Yuichi Kawamoto, Hiroki Nishiyama, Nei Kato (Tohoku Univ.) SAT2018-15 |
Recently, Unmanned Aircraft Systems (UAS) have been used by various fields(e.g. delivery of products, infrastructure ins... [more] | SAT2018-15 pp.25-30 |
| WBS, IT, ISEC | 2018-03-09 14:20 |
Tokyo | Katsusika Campas, Tokyo University of Science | Performance Comparison of User Position Detection Method using Multiple Unmanned Aerial Vehicles based Positioning Accuracy Index Hiroyasu Ishikawa, Hiroki Onuki (Nihon Univ.) IT2017-147 ISEC2017-135 WBS2017-128 |
In a typical unmanned aircraft systems (UASs) model, several unmanned aerial vehicles (UAVs) traveling at a velocity of ... [more] | IT2017-147 ISEC2017-135 WBS2017-128 pp.265-270 |
| ITS, WBS, RCC | 2017-12-15 15:20 |
Okinawa | Tiruru/Okinawa Jichikaikan | Estimation of Three-Dimensional Received Power Distribution Using Unmanned Aircraft Naoya Kiyofuji (Osaka Univ.), Hiroto Nishioka (Osaka City Univ.), Takahiro Matsuda (Osaka Univ.), Shinsuke Hara (Osaka City Univ.), Fumie Ono, Ryu Miura, Fumihide Kojima (NICT) WBS2017-82 ITS2017-59 RCC2017-98 |
We consider wireless data transfer between UAs (Unmanned Aircrafts) in the air and ground nodes. The received powers of ... [more] | WBS2017-82 ITS2017-59 RCC2017-98 pp.269-274 |
| SAT | 2017-10-27 09:00 |
Okinawa | Okinawa Cellular Telephone Company | A Doppler-shift-based User Position Detection Method using Unmanned Aerial Vehicls Hiroyasu Ishikawa, Hiroki Onuki, Yuki Saito (Nihon Univ.) SAT2017-48 |
Unmanned aircraft systems (UASs) have been researched and developed as temporal communication systems for emergency and ... [more] | SAT2017-48 pp.65-70 |
| CS, NS, IN, NV (Joint) |
2017-09-07 15:50 |
Miyagi | Research Institute of Electrical Communication, Tohoku Univ. | [Invited Talk]
Establishment of Temporary Communication in Disasters Using Fixed-Wing Small Unmanned Aircrafts and Extension to Multi-Rotor Drones Ryu Miura, Fumie Ono, Toshinori Kagawa, Lin Shan, Ken-ichi Takizawa, Huan-bang Li, Fumihide Kojima (NICT) NS2017-75 IN2017-27 CS2017-45 |
Unmanned aircrafts, or drones/UAV, are increasingly used in hobby and industries these yeas. Most of the applications ar... [more] | NS2017-75 IN2017-27 CS2017-45 pp.25-30(NS), pp.25-30(IN), pp.19-24(CS) |
| RCS, SAT (Joint) |
2017-08-17 10:25 |
Niigata | Niigata Univ. | A Study on Handover Detection Considering the Amount of Allocated Resources for Observation UA using Ground Station and Satellite Station Ryota Sasazawa, Hiroki Nishiyama, Nei Kato (Tohoku univ.) SAT2017-20 |
Recently, the utilization of Unmanned Aircraft (UA) has been growing in various fields. Especially, it has attracted a... [more] |
SAT2017-20 pp.1-6 |
[Return to Top Page]