Committee |
Date Time |
Place |
Paper Title / Authors |
Abstract |
Paper # |
NS |
2021-10-06 10:40 |
Online |
Online |
Reducing travel time by avoiding traffic jams in a cooperative driving system with multi-tier edge servers Yusuke Inagaki, Akihiro Nakao (UT) NS2021-68 |
In recent years, there has been a growing interest in "remote driving" control technology that enables vehicles to pass ... [more] |
NS2021-68 pp.7-12 |
CS, CQ (Joint) |
2021-05-13 09:30 |
Online |
On-line |
Enhancement of Robot Position Control Using Force Information Considering Mobile Robots Kazuya Kanaishi, Hirofumi Nakagawa, Yutaka Ishibashi (NITech), Pingguo Huang (Gifu Shotoku Gakuen Univ.), Yuichiro Tateiwa (NITech) CQ2021-1 |
This report enhances the robot position control using force information, which was previously proposed, for collaborativ... [more] |
CQ2021-1 pp.1-6 |
NLP, MSS (Joint) |
2021-03-15 15:20 |
Online |
Online |
Attack Detection Using an Unknown Input Observer for Cooperative Adaptive Cruise Control System Yudai Yamamoto, Naomi Kuze, Toshimitsu Ushio (Osaka Univ.) MSS2020-48 |
Cyber attacks targeting cooperative adaptive cruise control (CACC) systems have become a serious problem. Some attackers... [more] |
MSS2020-48 pp.22-26 |
KBSE |
2021-03-06 13:00 |
Online |
Online |
Efficient Evacuation Support in Mountainous Areas Using UAV Itsuki Tago, Yasushi Kambayashi (NIT) KBSE2020-43 |
We have witnessed various natural disasters in many regions. Even though people pay attention to tsunami, land-slides in... [more] |
KBSE2020-43 pp.54-59 |
IN, NS (Joint) |
2021-03-05 11:20 |
Online |
Online |
Impact of User Selection on Performance of User Cooperative Mobility in Social Ad hoc Network Takumi Anjiki, Tutomu Murase (Nagoya Univ.) IN2020-80 |
This paper proposes and evaluates the performance of user selection and mobility control using interlink interrupt aggre... [more] |
IN2020-80 pp.156-161 |
NS, ICM, CQ, NV (Joint) |
2020-11-27 09:55 |
Online |
Online |
Comparison of Force Feedback Methods in Remote Robot Systems Satoru Ishikawa, Yukata Ishibashi (NIT), Pingguo Huang (Shotoku), Takanori Miyoshi (NUT) CQ2020-54 |
In remote robot systems with force feedback, this report compares methods of force feedback for cooperative work between... [more] |
CQ2020-54 pp.38-43 |
SR, NS, SeMI, RCC, RCS (Joint) |
2020-07-10 15:20 |
Online |
Online |
An examination of a predictive control method for lighting using wireless sensor networks Yuki Takayama, Yusuke Yokota (Japan Women's Univ.) SeMI2020-14 |
Light management for buildings or streets is important for safety, security and comfort. However, it is not economical t... [more] |
SeMI2020-14 pp.63-68 |
NS |
2020-04-17 10:20 |
Online |
Online |
[Encouragement Talk]
A Reliable Cooperative Operation Platform based on Mobile Edge Computing Qinghao Liu, Takafumi Morita (UTokyo), Yoshihisa Kishiyama, Kensuke Miyachi, Takahiro Asai (NTT Docomo, INC.), Ping Du, Akihiro Nakao (UTokyo) NS2020-5 |
In recent years, there has been much research about intelligent traffic system to improve the safety and efficiency. Coo... [more] |
NS2020-5 pp.43-49 |
NS, IN (Joint) |
2020-03-05 11:00 |
Okinawa |
Royal Hotel Okinawa Zanpa-Misaki (Cancelled but technical report was issued) |
Quantitative Evaluation for Exposed Wireless LAN Problem Considering User Cooperative Mobility Kensuke Hiroshima, Tutomu Murase (Nagoya Univ.) IN2019-89 |
This paper proposes the user cooperative mobility for “Exposed Wireless LAN Problem” with the quantitative evaluation. W... [more] |
IN2019-89 pp.79-84 |
NS, IN (Joint) |
2020-03-05 11:00 |
Okinawa |
Royal Hotel Okinawa Zanpa-Misaki (Cancelled but technical report was issued) |
Evaluation on File Transfer Methods Considering Demand Intensity Applied to Neighbor Cooperative Data Offloading Systems Kai Tsujimura, Junichi Funasaka (Hiroshima City Univ) IN2019-97 |
Conventional data offload methods using short-range communication have not taken into account multiple contents with dif... [more] |
IN2019-97 pp.127-132 |
RCS, SR, SRW (Joint) |
2020-03-04 10:00 |
Tokyo |
Tokyo Institute of Technology (Cancelled but technical report was issued) |
Joint Multilayered User Clustering and Scheduling for Ultra-dense RAN in 5G Advanced Systems Ryo Takahashi, Hidenori Matsuo, Fumiyuki Adachi (Tohoku Univ.) RCS2019-323 |
Ultra-dense radio access network (RAN) consisting of a large number of distributed antennas can improve the coverage and... [more] |
RCS2019-323 pp.19-24 |
IT, SIP, RCS |
2020-01-23 13:05 |
Hiroshima |
Hiroshima City Youth Center |
A study on Cell-edge Performance Improvement by Network Cooperation Interference Canceller in Cellular Mobile Communications Takumi Yoneda, Teruya Fujii (Tokyo Tech) IT2019-52 SIP2019-65 RCS2019-282 |
The coming mobile communication systems such as 5G, ultra-high-speed data transmission is expected anywhere in a cell. I... [more] |
IT2019-52 SIP2019-65 RCS2019-282 pp.99-104 |
RISING (2nd) |
2019-11-27 13:55 |
Tokyo |
Fukutake Learning Theater, Hongo Campus, Univ. Tokyo |
[Poster Presentation]
User Cooperatibve Mobility Considering Interference between Netowrks for High Throughput in Multiple Ad-Hoc Networks Kousuke Okumura, Tutomu Murase (Nagoya Univ.) |
In this paper, we propose a user cooperative mobility method for high throughput in dense multiple Ad-Hoc networks. We a... [more] |
|
AP, RCS (Joint) |
2019-11-21 10:55 |
Saga |
Saga Univ. |
A Study on Uplink Interference Canceller of Macrocell by using Reference Signal of Smallcell eliminated Interference from Other Smallcells in HetNet Construction Takuya Kaneda, Teruya Fujii (Tokyo Tech) RCS2019-217 |
HetNet which deployed multiple small cells using same frequency inside the macro cell is expected as a technology for im... [more] |
RCS2019-217 pp.85-90 |
SRW, SeMI, CNR (Joint) |
2019-11-06 17:05 |
Tokyo |
Kozo Keisaku Engineering Inc. |
A predictive light control system using wireless sensor networks Yuki Takayama, Yusuke Yokota (Japan Women's Univ.) SeMI2019-97 |
Light management for buildings or streets is important for safety, security and comfort. However, it is not economical t... [more] |
SeMI2019-97 pp.139-144 |
NS |
2019-10-11 11:35 |
Aichi |
Nagoya Institute of Technology |
Effect of Adaptive ∆-Causality Control for Cooperation between Remote Robot Systems with Force Feedback
-- Case Where Robots have Equal Relationship -- Kazuya Kanaishi, Yutaka Ishibashi (NITech), Pingguo Huang (Seijoh Univ.), Yuichiro Tateiwa (NITech) NS2019-119 |
In this report, we investigate the effect of the adaptive ∆-causality control for cooperation between two remote robot s... [more] |
NS2019-119 pp.87-92 |
EE, IEE-SPC |
2019-07-24 14:00 |
Hiroshima |
|
Research on Synchronous Cooperative Control to LED Load Group Using Wireless Power Transfer by Amplitude Modulation
-- Mechanism and Demonstration of Various Light Emission Patterns by Autonomous Light Emission Control -- Hideaki Abe EE2019-22 |
This research is a study to control different behavior with respect to many independent loads grouped, taking advantage ... [more] |
EE2019-22 pp.31-36 |
SeMI, RCS, NS, SR, RCC (Joint) |
2019-07-11 10:40 |
Osaka |
I-Site Nanba(Osaka) |
[Poster Presentation]
Backoff Control for Consensus Problem based on CSMA/CA Tomoya Nishino, Koji Ishii (Kagawa Univ.) RCC2019-23 NS2019-59 RCS2019-116 SR2019-35 SeMI2019-32 |
This paper provides an adaptive backoff period setting for CSMA/CA based consensus problem. The consensus we focused in ... [more] |
RCC2019-23 NS2019-59 RCS2019-116 SR2019-35 SeMI2019-32 pp.61-66(RCC), pp.87-92(NS), pp.83-88(RCS), pp.93-98(SR), pp.75-80(SeMI) |
RCS |
2019-06-20 15:40 |
Okinawa |
Miyakojima Hirara Port Terminal Building |
A Study on Uplink Interference Canceller in HetNet Construction Takuya Kaneda, Reina Taniguchi, Teruya Fujjii (TIT) RCS2019-78 |
HetNet (Heterogeneous Network) which deployed multiple small cells using same frequency inside the macro cell is expecte... [more] |
RCS2019-78 pp.249-254 |
CQ |
2019-05-31 14:50 |
Hiroshima |
Hiroshima City University |
Delay-Adaptive Control for Remote Controlled Robots for Cooperative Conveyance Hiroshi Yoshida, Taichi Kumagai, Shinya Yasuda (NEC Corp.) CQ2019-31 |
A remote control architecture of robots using various external sensors and computers via cloud networks, i.e., Cloud Rob... [more] |
CQ2019-31 pp.101-106 |