Committee |
Date Time |
Place |
Paper Title / Authors |
Abstract |
Paper # |
IN, RCS, NV (Joint) |
2024-05-30 10:25 |
Fukuoka |
Fukuoka University |
Evaluation of ACLR and Beam Detection Characteristics for Fast Beam Steering with Discrete Subcarrier Arrangement Hideya So (SIT), Kazuki Maruta (TUS), Takana Kaho (SIT) |
(To be available after the conference date) [more] |
|
AP |
2024-03-15 11:25 |
Fukui |
UNIVERSITY OF FUKUI (Primary: On-site, Secondary: Online) |
Beamforming of Large-Scale Array Antennas by Quasi-Quantum Annealing using Real-number Maclaurin Expansion Mitoshi Fujimoto, Shogo Kaginushi (Univ. Fukui), Ryo Yamaguchi, Kazuma Tomimoto (Softbank) AP2023-214 |
Beyond5G and 6G are considering using higher frequency bands than the current mobile communication systems. Since radio ... [more] |
AP2023-214 pp.74-79 |
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 |
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 |
SANE |
2023-12-08 14:10 |
Overseas |
Surakarta, Indonesia (Primary: On-site, Secondary: Online) |
Research Progress of Helicopter Forward-Looking Obstacle Detection System Based on 76 GHz Low-Transmitting Power Millimeter-Wave Radar
-- Overview of flight experiments and ground-detection test -- Shunichi Futatsumori (ENRI) SANE2023-82 |
This paper discusses the progress in research on a forward-looking helicopter obstacle-detection system based on a 76 GH... [more] |
SANE2023-82 pp.122-124 |
SANE |
2023-01-20 13:25 |
Tokyo |
(Primary: On-site, Secondary: Online) |
Radome Effect Evaluations of Helicopter Forward-Looking Small Transmitting Power 76 GHz Millimeter-Wave Radar
-- Ground Measurements of Detection Performance Degradations Due to Radome -- Shunichi Futatsumori, Norihiko Miyazaki (ENRI) SANE2022-95 |
This report discusses radome effect evaluations of helicopter forward-looking obstacle detection 76 GHz low-transmitting... [more] |
SANE2022-95 pp.35-39 |
COMP |
2022-12-06 15:00 |
Ehime |
Ehime Univ. Media Hall |
A Fast (1+epsilon)-Approximating Algorithm for Single Source Replacement Path Problem Kaito Harada, Naoki Kitamura, Taisuke Izumi, Toshimitsu masuzawa (Osaka Univ.) COMP2022-28 |
Let $G$ be any weighted undirected graph of $n$ vertices and $m$ edges, and $s$ be an arbitrary source vertex in $G$. In... [more] |
COMP2022-28 pp.32-39 |
ITS |
2022-07-15 14:40 |
Fukuoka |
Fukuoka Univ. (Primary: On-site, Secondary: Online) |
A study of reflective surface position estimation for a non-line-of-sight obstacle position estimation system using a reflection image Yusuke Takatori, Kazuho Shiraishi, Nao Aoyagi (Kanagawa Institute of Technology) ITS2022-5 |
In recent years, a method for estimating the position of an Non-Line-Of-Sight (NLOS) obstacle from an image reflected on... [more] |
ITS2022-5 pp.21-26 |
CQ, IMQ, MVE, IE (Joint) [detail] |
2022-03-11 17:55 |
Online |
Online (Zoom) |
Delay Evaluation of Fixed Backoff Method for In-Vehicle Wireless Communication Considering In-Vehicle Communication Characteristics Takumi Shiohara, Tutomu Murase (Nagoya Univ.) CQ2021-137 |
In this study, we propose an in-vehicle communication propagation model for in-vehicle wireless communication using IEEE... [more] |
CQ2021-137 pp.198-202 |
SS |
2022-03-07 11:20 |
Online |
Online |
Trace Ablation and Fault Localization per Method Using Machine Learning Models for Automatic Classification of Test Execution Results Takuma Ikeda, Kozo Okano, Shinpei Ogata (Shinshu Univ.), Shin Nakajima (NII) SS2021-44 |
The problem to solve automatically classifying the results of test executions is called the test oracle problem. This is... [more] |
SS2021-44 pp.13-18 |
NLC |
2022-03-07 13:50 |
Online |
Online |
Structured Annotations and Analysis of ACL Papers Aya Ishino (HUE), Hiroyuki Shindo (NAIST) NLC2021-33 |
In recent years, the number of scientific and technical papers published has been increasing at an accelerated rate, mak... [more] |
NLC2021-33 pp.30-34 |
HCS |
2022-01-29 10:10 |
Online |
Online |
A Study Focusing on Conversational Tasks for Interactive Mental Health Support Using Chatbot Kouyou Otsu, Shigen Shimojo, Keita Kiuchi, Yugo Hayashi (Ritsumeikan Univ.) HCS2021-52 |
With the growing public concern about mental health, there are high expectations for the realization of a simple and sus... [more] |
HCS2021-52 pp.55-60 |
SS, MSS |
2022-01-12 09:15 |
Nagasaki |
Nagasakiken-Kensetsu-Sogo-Kaikan Bldg. (Primary: On-site, Secondary: Online) |
Execution-trace embedding using word-proximity metric for a method to automatically classify test results Takuma Ikeda, Kozo Okano, Shinpei Ogata (Shinshu Univ.), Shin Nakajima (NII) MSS2021-46 SS2021-33 |
The problem to solve automatically classifying the results of test executions is called the test oracle problem. This is... [more] |
MSS2021-46 SS2021-33 pp.83-88 |
WBS, RCC, ITS |
2021-12-13 09:00 |
Online |
Online |
[Poster Presentation]
Ego-vehicle speed and obstacle estimation using millimeter-wave radar Keiji Jimi, Takeki Ogitsu (Gunma Univ.) WBS2021-35 ITS2021-9 RCC2021-42 |
In this paper, we propose an improvement for ego-vehicle speed estimation with in-vehicle millimeter wave radar and disc... [more] |
WBS2021-35 ITS2021-9 RCC2021-42 pp.7-12 |
CAS, NLP |
2021-10-14 15:00 |
Online |
Online |
Introduction of Personal Space Reduction to Evacuation Simulation by Using Social Force Model Norika Nakamura, Koichiro Daidai, Kota Ishisaka, Nao Ito (NIT, Toyama college) CAS2021-26 NLP2021-24 |
It is known that putting obstacles around exit may be able to make evacuation behavior smooth. Evacuation simulation mod... [more] |
CAS2021-26 NLP2021-24 pp.51-56 |
SRW |
2021-08-24 10:00 |
Online |
Online |
Design of Multi-carrier Pilot Signals for Operation Point Estimation in Digital Pre-Distortion based Linearizer Atushi Masubuchi, Masahiro Umehira, Xiaoyan Wang, Shigeki Takeda (Ibaraki Univ.) SRW2021-13 |
Mobile terminal is required to improve the power utilization efficiency of HPA (High Power Amplifier) because of the inc... [more] |
SRW2021-13 pp.1-6 |
IN, NS (Joint) |
2021-03-05 09:10 |
Online |
Online |
Experimental performance evaluation on avoidance of blockchain oracle problem using collective intelligence Yutaka Kato, Akihiro Fujihara (CIT) IN2020-74 |
Bitcoin-type blockchains have a problem called oracle problem, where blockchains themselves cannot prove the authenticit... [more] |
IN2020-74 pp.120-125 |
HIP, VRSJ |
2021-02-19 10:05 |
Online |
Online |
Passable width perception during bike riding in virtual environments Naoki Kuroda, Kazuhiro Ikeda, Wataru Teramoto (Kumamoto Univ.) HIP2020-84 |
When confronted with a narrow aperture during locomotion, one needs to judge whether the aperture is passable and to tak... [more] |
HIP2020-84 pp.53-56 |
MBE, NC (Joint) |
2020-12-18 16:05 |
Online |
Online |
Analysis of the finger joint coordination in reach and grasp movements with obstacle avoidance. Shuhei Horoiwa, Naohiro Fukumura (Toyohashi Univ. of Tech.) NC2020-31 |
Human fingers have many joint angles, and therefore, human properly coordinates the joints to correspond to various obje... [more] |
NC2020-31 pp.19-24 |