Committee |
Date Time |
Place |
Paper Title / Authors |
Abstract |
Paper # |
CCS, IN (Joint) |
2023-08-03 11:09 |
Hokkaido |
Banya-no-yu |
Reinforcement learning-based control of CWmin and Carrier Sense Threshold for IEEE 802.11 WLAN. Yuto Higashiyama, Kosuke Sanada, Hiroyuki Hatano, Kazuo Mori (Mie Univ.) CCS2023-20 |
Distribute Coordination Function (DCF) is a basic channel access protocol in IEEE 802.11 Wireless Local Area Networks (W... [more] |
CCS2023-20 pp.19-24 |
CS |
2022-10-28 10:30 |
Hiroshima |
Hiroshima City University Satellite campus (Primary: On-site, Secondary: Online) |
Improvement of Performance Anomaly for Fairness of Data Frame Time Using Success-Priority DCF Naoya Koyanagi, Daisuke Umehara (KIT) CS2022-46 |
As the number of devices wireless LAN function increases, there will be more opportunities for multiple stations (STAs) ... [more] |
CS2022-46 pp.15-20 |
CCS |
2022-03-27 17:05 |
Hokkaido |
RUSUTSU RESORT HOTEL & CONVENTION (Primary: On-site, Secondary: Online) |
Reinforcement-learning based selection of CWmin in IEEE 802.11 networks. Kosuke Sanada (Mie Univ.) CCS2021-51 |
This paper proposes Q-learning based selection of contention window minimum value in IEEE 802.11 networks. In the propos... [more] |
CCS2021-51 pp.90-95 |
RISING (3rd) |
2021-11-17 11:00 |
Tokyo |
(Primary: On-site, Secondary: Online) |
Improvement of Performance Anomaly Using Success Prioritized DCF Naoya Koyanagi, Daisuke Umehara (Kyoto Inst. of Tech.) |
In recent years, the number of electronic devices with wireless LAN such as PCs and smartphones has increased. With the ... [more] |
|
CS |
2020-11-06 11:15 |
Online |
Online + Central Community Center, Nonoichi Community Center (Primary: Online, Secondary: On-site) |
Performance Analysis of Success-Prioritized DCF in Non-Saturated Condition Yamato Yoshikawa, Daisuke Umehara (KIT) CS2020-59 |
In recent years, mobile terminals with wireless local area network (WLAN) function have become more popular
and it is e... [more] |
CS2020-59 pp.64-67 |
IT |
2019-07-25 16:15 |
Tokyo |
NATULUCK-Iidabashi-Higashiguchi Ekimaeten |
Probability Distribution of Backoff and Frozen Backoff in CSMA/CA Koki Samoto, Ikuo Oka, Shingo Ata (Osaka City Univ.) IT2019-20 |
Recently, in wireless communications a transmission rate degradation due to the increase of traffic becomes a serious pr... [more] |
IT2019-20 pp.27-30 |
CS |
2019-07-04 09:15 |
Kagoshima |
Amami City Social Welfare Center |
Downlink Bandwidth Allocation Control by Success Prioritized DCF Yamato Yoshikawa, Daisuke Umehara (KIT) CS2019-29 |
Due to the popularization of mobile terminals, more stations (STAs) will communicate with one access point (AP) in publi... [more] |
CS2019-29 pp.63-65 |
IN, NS, CS, NV (Joint) |
2018-09-07 10:10 |
Miyagi |
Research Institute of Electrical Communication, Tohoku Univ. |
Bistability of IEEE 802.11 DCF in Saturated/Non-saturated Boundary Region Taiki Tubotani, Xiang Li, Shigeo Shioda (Chiba Univ.) NS2018-101 |
There exist two stable states of a IEEE-802.11-DCF-based wireless LAN (WLAN) in a region where the amount of frames tran... [more] |
NS2018-101 pp.77-82 |
IT |
2018-07-19 13:40 |
Nara |
Yamato Kaigishitsu |
Estimation of The Number of Users by Backoff and Collision Information on WLAN Norihiro Matsumoto, Ikuo Oka, Shingo Ata (Osaka City Univ.) IT2018-12 |
Recently, the number of users using wireless devices is increasing. This causes a transmission rate degradation. To deal... [more] |
IT2018-12 pp.1-4 |
CQ |
2018-06-01 11:20 |
Chiba |
Chiba Univ. Nishi-Chiba Campus, academic link center |
Mean Field Approximation Analysis and Bistability of IEEE 802.11 DCF in a Saturated/Non-saturated Boundary Region Xiang Li, Shigeo Shioda (Chiba Univ.) CQ2018-25 |
Using the analysis model of IEEE 802.11 DCF with mean field approximation, we show that the wireless LAN (WLAN) based on... [more] |
CQ2018-25 pp.43-48 |
MoNA, IN (Joint) |
2015-11-18 10:20 |
Kumamoto |
Kumamoto University |
Implementation and Evaluation of Dualcast by Extending IEEE802.11 Takuya Sato, Shuhei Aketa, Yuto Otsuki (Ritsumeikan Univ), Shoichi Saito (Nagoya Inst. of Tech Univ), Yoshitoshi Kunieda, Koichi Mouri, Eiji Takimoto (Ritsumeikan Univ) MoNA2015-30 |
IEEE802.11 MAC provides unicast and broadcast as communication methods. Broadcast or a sniffing technique which combine... [more] |
MoNA2015-30 pp.47-52 |
CCS |
2015-11-10 14:20 |
Kyoto |
Inamori Foundation Memorial Building, Kyoto Univ. |
Throughput Analysis of Wireless Multihop Networks taking into account Data Rate Tomoo Tanii, Kosuke Sanada, Nobuyoshi Komuro, Hiroo Sekiya (Chiba Univ.) CCS2015-62 |
This paper presents analytical expression of end-to-end throughput and delay for wireless multi-hop networks taking into... [more] |
CCS2015-62 pp.93-98 |
CQ |
2015-09-02 10:10 |
Kyoto |
Kyoto Institute of Technology |
A Study of IEEE 802.11 DCF with Successful Transmission Priority Daisuke Umehara (Kyoto Inst. of Tech.), Hidekazu Murata (Kyoto Univ.), Satoshi Denno (Okayama Univ.) CQ2015-60 |
In this manuscript, we propose a distributed coordination function with successful transmission priority (DCF-STP) based... [more] |
CQ2015-60 pp.119-124 |
CQ |
2015-09-02 13:00 |
Kyoto |
Kyoto Institute of Technology |
A Study of CW Optimization in IEEE 802.11 DCF Network Coding Daisuke Umehara (Kyoto Inst. of Tech.), Hidekazu Murata (Kyoto Univ.), Satoshi Denno (Okayama Univ.) CQ2015-64 |
Network coding will be effective to enhance the bidirectional throughput for single-relay multi-user wireless networks e... [more] |
CQ2015-64 pp.143-148 |
MoNA, CQ (Joint) |
2014-09-11 10:15 |
Miyagi |
|
Experimental Evaluation of Frame Collision Reduction Method for IEEE802.11 Wireless LAN System Akira Kishida, Masashi Iwabuchi, Toshiyuki Shintaku, Takeshi Onizawa, Tetsu Sakata (NTT) CQ2014-42 |
The IEEE 802.11 distributed coordinated function (DCF) adopts carrier sense multiple access with collision avoidance (CS... [more] |
CQ2014-42 pp.19-24 |
CQ, MVE, IE, IMQ, CEA (Joint) [detail] |
2014-03-07 16:50 |
Oita |
Beppu International Convention Center |
Adaptive Frame Collision Reduction Method using Post-IFS for IEEE802.11 Wireless LAN System Akira Kishida, Masashi Iwabuchi, Toshiyuki Shintaku, Takeshi Onizawa, Tetsu Sakata (NTT) CQ2013-107 |
The IEEE 802.11 distributed coordinated function (DCF) adopts carrier sense multiple access with collision avoidance (CS... [more] |
CQ2013-107 pp.107-112 |
NS, IN (Joint) |
2014-03-07 14:00 |
Miyazaki |
Miyazaki Seagia |
Study on Contention Window Control of W-LAN for Wide-area Wireless Media Access Scheme Tetsuji Matayoshi, Kenji Kawahara (Kyushu Inst. of Tech.) IN2013-203 |
In IEEE802.11DCF for the access control method of WLAN, nodes are waiting for their frame transmission during some backo... [more] |
IN2013-203 pp.349-354 |
ASN, IPSJ-UBI |
2013-05-16 09:50 |
Kumamoto |
Kumamoto University |
Non-saturated and Maximum Throughput Analysis for String Topology Wireless multi-hop Networks Hiroo Sekiya, Kosuke Sanada, Jin Shi, Shiro Sakata (Chiba Univ.) ASN2013-2 |
Wireless ad-hoc networks are regarded as autonomous distribution networks. IEEE 802.11 DCF is usually applied to MAC pro... [more] |
ASN2013-2 pp.7-12 |
IT, ISEC, WBS |
2013-03-08 10:30 |
Osaka |
Kwansei Gakuin Univ., Osaka-Umeda Campus |
On Methods for Introducing Quiet Period into Wireless LAN over TV White Space Masumi Yuki, Shigenobu Sasaki (Niigata Univ.) IT2012-97 ISEC2012-115 WBS2012-83 |
In this paper, performance of two different methods for introducing quiet period (QP) into wireless LAN (WLAN) are evalu... [more] |
IT2012-97 ISEC2012-115 WBS2012-83 pp.223-228 |
NS, RCS (Joint) |
2012-12-13 12:30 |
Ehime |
Ehime Univ. |
Synchronized Multi-Hop Protocol with Fast Transmission Failure Recovery for IEEE 802.11 Multi-Hop Wireless Network under Large Interference Range Xinru Yao, Zilu Liang, Yasushi Wakahara (Univ. of Tokyo) NS2012-120 RCS2012-195 |
Multi-hop wireless networks are considered promising for the next-generation communication systems because of their wide... [more] |
NS2012-120 RCS2012-195 pp.19-24(NS), pp.71-76(RCS) |