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, IEE-ITS |
2024-03-11 14:25 |
Shiga |
BKC, Ritsumeikan Univ. (Primary: On-site, Secondary: Online) |
Construction of a real-time Estimation System for Reflective Plane Positions Kota Sakakibara, Yusuke Takatori (KAIT) ITS2023-81 |
In this paper, we describe real-time position estimation of reflective planes. This acquires 3D position information by ... [more] |
ITS2023-81 pp.11-16 |
IN, IA (Joint) |
2023-12-21 10:40 |
Hiroshima |
Satellite Campus Hiroshima |
A Study of Temporal Network Analysis for Evaluating Worm Spreading in Vehicle-to-Vehicle Network Yuji Watanabe, Yukio Ogawa, Kaoru Ota, Mianxiong Dong (Muroran-IT) IN2023-42 |
Vehicle-to-vehicle (V2V) communication is expected to revolutionize the driving experience by improving bothsafety and c... [more] |
IN2023-42 pp.13-18 |
ITS, WBS, RCC |
2023-12-21 09:50 |
Okinawa |
(Primary: On-site, Secondary: Online) |
Ego-Vehicle Motion Estimation by Spectrum analysis using 3D Millimeter-Wave MIMO Radar Keiji Jimi, Takeki Ogitsu (Gunma Univ.) WBS2023-28 ITS2023-11 RCC2023-22 |
This paper discusses a method for estimating the ego-vehicle motion (speed and turning) using spectrum analysis with thr... [more] |
WBS2023-28 ITS2023-11 RCC2023-22 pp.1-6 |
ITS, WBS, RCC |
2023-12-21 10:15 |
Okinawa |
(Primary: On-site, Secondary: Online) |
A Study on Real-time Position Estimation System for Non-Line of Sight Obstacles Using Reflected Images Yuito Takahashi, Yuto Okubo, Yusuke Takatori (Kanagawa Inst of Tec) WBS2023-29 ITS2023-12 RCC2023-23 |
In this paper, the construction of a system that uses reflected images to estimate the position of obstacles that exist ... [more] |
WBS2023-29 ITS2023-12 RCC2023-23 pp.7-12 |
ITS, WBS, RCC |
2023-12-21 10:40 |
Okinawa |
(Primary: On-site, Secondary: Online) |
A study on position estimation of Non-Line of sight obstacles reflected in painted surface Yuto Okubo, Yuito Takahashi, Yusuke Takatori (Kanagawa Inst of Tech) WBS2023-30 ITS2023-13 RCC2023-24 |
In this paper, we built a system to estimating the position of obstacles that are out of line of sight from the vehicle ... [more] |
WBS2023-30 ITS2023-13 RCC2023-24 pp.13-18 |
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 |
ITS, IPSJ-ITS, IEE-ITS |
2023-08-29 14:55 |
Kanagawa |
Kanto Gakuin Univ. (Kanazawa-Hakkei Campus) (Primary: On-site, Secondary: Online) |
Classification and Detection of Parking Lots That Require a Driver to Switch Back on a Public Road Using Aerial Images Focusing on Their Geometric Structures Nozomu Honda, Da Li, Shintaro Ono (Fukuoka Univ.) ITS2023-7 |
Switching back operation in a parking lot can easily cause contact with pedestrians and vehicles, and is particularly da... [more] |
ITS2023-7 pp.1-5 |
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, ITS, WBS |
2022-12-14 11:05 |
Shiga |
Ritsumeikan Univ. BKC (Primary: On-site, Secondary: Online) |
Vehicle Route Detection Network Using Continuous Roadside Units Gunhee Cho, Tao Yu, Jin Nakazato, Kei Sakaguchi (TokyoTech) WBS2022-55 ITS2022-31 RCC2022-55 |
For the purpose of establishing a digital twin society, this paper proposes an object recognition network architecture u... [more] |
WBS2022-55 ITS2022-31 RCC2022-55 pp.114-119 |
RISING (3rd) |
2022-10-31 14:00 |
Kyoto |
Kyoto Terrsa (Day 1), and Online (Day 2, 3) |
[Poster Presentation]
Object Detection via Pseudo-Analog Communications in Automated Mobility with Infrastructure Cooperation Junichiro Yamada (UEC) |
A concept of automated mobility with infrastructure cooperation can enhance the safety level because vehicles obtain inf... [more] |
|
NS, SR, RCS, SeMI, RCC (Joint) |
2022-07-14 11:20 |
Ishikawa |
The Kanazawa Theatre + Online (Primary: On-site, Secondary: Online) |
Evaluation of Object Detection AI in Pseudo-Analog Communications Junichiro Yamada, Suto Katsuya (UEC) SR2022-28 |
Roadside video broadcasting is a key technology for cooperative automatic driving. The traditional broadcasting method t... [more] |
SR2022-28 pp.36-40 |
RCS |
2022-06-17 15:45 |
Okinawa |
University of the Ryukyus, Senbaru Campus and online (Primary: On-site, Secondary: Online) |
Design of Wireless Path Management System to Stabilize Wireless Communication for Mobile Devices Taketoshi Nakajima, Fumiko Ohori, Akihiro Amagai, Toru Osuga, Satoko Itaya, Takeshi Matsumura (NICT) RCS2022-67 |
In recent years, the introduction of mobile devices such as Automated Guided Vehicle (AGV) has been promoted in factory ... [more] |
RCS2022-67 pp.253-257 |
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 |
ITS, IEE-ITS |
2022-03-11 10:00 |
Online |
Online |
A Bicycle Mounted Warning System for Preventing Rear-End Collisions and Entrapment Accidents using OpenCV-based AI Camera Sakiho Horibe, Masayuki Iwai (Tokyo Denki Univ.) ITS2021-64 |
Recently, due to the expansion of the take-out delivery business caused by the new coronavirus (COVID-19), the number of... [more] |
ITS2021-64 pp.7-12 |
ITS, IEE-ITS |
2022-03-11 10:25 |
Online |
Online |
Judgement of Start using On-Vehicle 3D-LiDAR for Autonomous Vehicle at Temporary Stop of Intersection Yuki Komatsu (AIST/Tokyo Univ. of Science), Shin Kato (AIST), Makoto Itami (Tokyo Univ. of Science) ITS2021-65 |
In this paper, we proposed a system for detecting moving objects at intersections and judge whether the vehicle start us... [more] |
ITS2021-65 pp.13-18 |
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 |
PRMU |
2020-12-17 16:45 |
Online |
Online |
Vehicle detection using visualization of deep learning from in-vehicle night-time camera image Tatsuya Oyabu, Gosuke Ohashi (Shizuoka Univ.) PRMU2020-50 |
We have been working on vehicle detection at night-time using deep learning. In general, the burden of creating correct ... [more] |
PRMU2020-50 pp.69-74 |