Committee |
Date Time |
Place |
Paper Title / Authors |
Abstract |
Paper # |
NS |
2019-01-17 17:05 |
Nagasaki |
Nagasaki Prefectural Art Museum |
AP/STA Cooperative AP Selection Scheme for supporting Airtime Fairness in Heterogeneous AP Environment Syohei Arakaki, Kazuya Tsukamoto (kyutech) NS2018-188 |
Recently, the number of Wi-Fi enabled devises including public/private access points and terminals such as smartphone ha... [more] |
NS2018-188 pp.59-64 |
RCS, NS (Joint) |
2018-12-21 09:25 |
Hiroshima |
Onomichi City Hall |
A Congestion-Aware Routing Protocol and Date Transmission Scheme in IEEE 802.11 Mesh Network Fusao Nuno, fumihiko shinohara, kazuhiro yamaguchi, hideaki matsue (Suwa University of Science), akira tsuge, aritaka shinoda (WSN-ATEC General Incorporated Association) RCS2018-232 |
In this paper, we reveal performance of congestion-aware routing protocols that avoid traffic congestion and provides be... [more] |
RCS2018-232 pp.77-82 |
SR |
2018-10-30 10:30 |
Overseas |
Mandarin Hotel, Bangkok, Thailand |
[Poster Presentation]
Experimental Investigation of Static Channel Bonding Performance in Competitive Environment
-- Impact of Different MAC Procedures in 802.11ac -- Kazuki Fujii, Hitomi Tamura (FIT), Daiki Nobayashi, Kazuya Tsukamoto (Kyutech) SR2018-58 |
Channel bonding technology, which bundles multiple adjacent channels for frame transmission, is one of the promising way... [more] |
SR2018-58 pp.1-2 |
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 |
NS |
2018-04-19 13:00 |
Fukuoka |
Fukuoka Univ. |
[Encouragement Talk]
Experimental Investigation of Effectiveness of Static Channel Bonding in Contention Environment with Other Wireless LAN Kazuki Fujii, Hitomi Tamura (FIT), Daiki Nobayashi, Kazuya Tsukamoto (Kyutech) NS2018-1 |
Channel bonding technology, which bundles multiple adjacent channels, is one of the promising way for improving throughp... [more] |
NS2018-1 pp.1-6 |
NS, IN (Joint) |
2018-03-02 09:40 |
Miyazaki |
Phoenix Seagaia Resort |
Power Saving TCP for Sleep Control in Wireless LAN Access Points Kouta Yanase, Kenji Kawahara (kyutech) IN2017-115 |
Recently, mobile traffic gets growing rapidly with the increasing prevalence of smart-phones. It would be effective for ... [more] |
IN2017-115 pp.153-158 |
CQ |
2018-01-19 14:50 |
Tokyo |
NII |
A method of sending out RTS/CTS frames with better timing on WLANs Yutaka Shimamura, Hiroshi Inai (Okayama Pref Univ) CQ2017-99 |
In order to avoid data frame collisions due to the hidden terminals, the wireless LANs practically use a method under wh... [more] |
CQ2017-99 pp.81-85 |
NS |
2018-01-19 15:40 |
Okinawa |
Ishigakishi-Shoko-Kaikan |
Performance Analysis of Dynamic Channel Bonding with Partial Channel Collision
-- In the case of 2*20MHz -- Kenji Sato (Kyutech), Hitomi Tamura (FIT), Daiki Nobayashi, Kazuya Tsukamoto, Kenji Kawahara (Kyutech) NS2017-163 |
Channel bonding is a technique to improve transmission rate by bonding multiple channels. Recently, the number of device... [more] |
NS2017-163 pp.111-116 |
IA, IN (Joint) |
2017-12-14 14:45 |
Hiroshima |
Hiroshima City Univ. |
A Study on WebQoE Improvement by Estimating Appropriate Transmission Rate for IEEE802.11g Wireless LAN Maya Tabuchi, Yoshihiro Ito (Nagoya Institute of Technology) IA2017-58 |
This paper proposes a method of estimating the most appropriate transmission rate of an IEEE 802.11g wireless LAN based ... [more] |
IA2017-58 pp.31-35 |
SRW |
2017-11-13 14:35 |
Tokyo |
NICT (Koganei) |
[Poster Presentation]
WLAN Test Solution Akihide Egawa (Anritsu) SRW2017-52 |
WLAN are appearing rapidly not only in mobile devices such as smartphones, but also in many other applications, includin... [more] |
SRW2017-52 pp.31-36 |
NS, ASN, RCC, RCS, SR (Joint) |
2017-07-20 11:05 |
Hokkaido |
Hokkaido Univ. |
[Poster Presentation]
MAC Level Throughput Performance on Wired and Wireless Network Cooperation Recovery System Kazuki Maruta (Chiba Univ.), Yu Nakayama (The Univ. of Tokyo), Takuya Tsutsumi (Kyoto Univ.) RCC2017-26 NS2017-47 RCS2017-118 SR2017-41 ASN2017-35 |
We present practical MAC level throughput performance of wired and wireless network cooperation (NeCo) system, which rea... [more] |
RCC2017-26 NS2017-47 RCS2017-118 SR2017-41 ASN2017-35 pp.91-92(RCC), pp.105-106(NS), pp.145-146(RCS), pp.103-104(SR), pp.123-124(ASN) |
PN, NS, OCS (Joint) |
2017-06-16 11:15 |
Akita |
Akita Univ. |
Performance Analysis of Dynamic Channel Bonding with Partial Channel Collision
-- Queueing Theory Approch -- Kenji Sato (Kyutech), Hitomi Tamura (FIT), Kazuya Tsukamoto (Kyutech) NS2017-25 |
Channel bonding, which is one of the latest technologies for the wireless LAN transmission rate by using consecutive mul... [more] |
NS2017-25 pp.17-22 |
NS, IN (Joint) |
2017-03-03 11:40 |
Okinawa |
OKINAWA ZANPAMISAKI ROYAL HOTEL |
Multiple Data Aggregation and Relay System for Collecting a Huge Amount of Small Size Data on Wireless Networks Junichi Teruya, Kenji Kawahara (KIT) IN2016-137 |
In recent years, devices such as sensors connected to the Internet are increasing due to rapid development of M2M techno... [more] |
IN2016-137 pp.239-244 |
NS, RCS (Joint) |
2016-12-22 15:10 |
Ishikawa |
|
Raspberry Pi Configuration for Access-Point and Its Throughput Measurements in IEEE802.11n Wireless Networks Sumon Kumar Debnath, Nobuo Funabiki, Kyaw Soe Lwin, Md. Selim Al Mamun (Okayama Univ.), Rahardhita Widyatra Sudibyo, Samsul Huda (Polytechnic Institute of Surabaya, Indonesia) NS2016-137 |
Nowadays, a variety of IEEE802.11n wireless access-points (APs), including a dedicated commercial AP, a software AP, and... [more] |
NS2016-137 pp.101-106 |
SRW |
2016-08-22 13:30 |
Chiba |
Nihon Univ. (Tsudanuma Campus) |
[Invited Talk]
Trend of Wireless LAN Standardization and Future Sight Tomoko Adachi (TOSHIBA) SRW2016-40 |
The history of IEEE 802.11 Wireless LAN standardization is looked back mainly from the high speed point of view. By anal... [more] |
SRW2016-40 pp.43-48 |
PRMU, IE, MI, SIP |
2016-05-20 16:10 |
Aichi |
|
Performance Evaluations of 8K Video Retransmission for a Broadcasting and Communication Integrated Service Rintaro Harada, Kenji Kanai (Waseda Univ.), Yasutaka Matsuo (NHK), Jiro Katto (Waseda Univ.) SIP2016-34 IE2016-34 PRMU2016-34 MI2016-34 |
8K video delivery service utilizing broadcasting and IP communication systems will become popular. In this paper, we fir... [more] |
SIP2016-34 IE2016-34 PRMU2016-34 MI2016-34 pp.179-184 |
SR, SRW (Joint) |
2016-05-16 14:30 |
Overseas |
Hotel Lasaretti, Oulu, Finland |
[Technology Exhibit]
Monitoring and Simulation of Wireless Fading Channels on a Software Defined Radio (SDR) Receiver Ayano Ohnishi, Yoshimi Fujii, Fumiko Ohori (KKE) SR2016-1 SRW2016-1 |
This paper focuses on fading over wireless channels, which affects the communication performance between an UAV and a gr... [more] |
SR2016-1 SRW2016-1 pp.1-3 |
ASN |
2016-05-12 16:30 |
Tokyo |
|
Throughput Analysis of WLANs with Airtime Concept Hiroo Sekiya (Chiba Univ.), Kosuke Sanada (Mie Univ.) ASN2016-9 |
(To be available after the conference date) [more] |
ASN2016-9 pp.41-45 |
ASN |
2016-05-13 14:30 |
Tokyo |
|
[Poster Presentation]
Throughput characteristics Analysis of Wireless LANs considering Inter-network Interference Takumi Aoki (Chiba Univ), Kosuke Sanada (Mie Univ), Nobuyoshi Komuro (Chiba Univ), Gen Motoyoshi, Norio Yamagaki (NEC), Shigeo Shioda, Shiro Sakata (Chiba Univ), Tsutomu Murase (Nagoya Univ), Hiroo Sekiya (Chiba Univ) ASN2016-15 |
Recently, the environment where there are many Access-Points(AP) in a small area exists everywhere. In this environment,... [more] |
ASN2016-15 pp.75-81 |
NS, IN (Joint) |
2016-03-03 11:00 |
Miyazaki |
Phoenix Seagaia Resort |
Data Aggregation and Relay System for Collecting a Huge Amount of Small Size Data on Wireless Networks Yuki Inatomi, Kenji Kawahara (KIT) IN2015-117 |
In recent years, M2M (Machine-to-Machine) devices such as sensors with small size data are connected to the Internet. Si... [more] |
IN2015-117 pp.55-60 |