Committee |
Date Time |
Place |
Paper Title / Authors |
Abstract |
Paper # |
RCS, SR, SRW (Joint) |
2023-03-02 11:15 |
Tokyo |
Tokyo Institute of Technology, and Online (Primary: On-site, Secondary: Online) |
Performance evaluation of SIGFOX in mobile environments
-- Performance comparison in static and mobile environments -- Yoshihiko Takeuchi, Masahiro Umehira (Nanzan Univ.) RCS2022-274 |
SIGFOX is one of the LPWA systems that enable wireless IoT simply by having users provide for end terminals. In this rep... [more] |
RCS2022-274 pp.155-160 |
MICT, EMCJ (Joint) |
2022-03-04 16:25 |
Online |
Online |
A synchronized measurement system for WBAN channel modeling by human motion parameters Akira Saito, Takahiro Aoyagi (Tokyo Tech) MICT2021-111 |
The development of WBAN channel models requires a lot of experiments and simulations. In order to reduce the number of e... [more] |
MICT2021-111 pp.53-58 |
SR |
2022-01-25 14:10 |
Online |
Online |
[Short Paper]
Measurement of propagation attenuation of standing user for directional WBAN Renta Fukui, Kohei Akimoto, Teruo Tobana (Akita Pref. Univ.) SR2021-80 |
Wireless body area network (WBAN) is a communication system between wearable devices for medical, sports, and entertainm... [more] |
SR2021-80 p.102 |
SR |
2022-01-25 15:20 |
Online |
Online |
Evaluation of a Millimeter-wave WBAN Fairness Improvement Method Using a Concourse Model Tsukasa Chida (Tohoku Univ.), Suguru Kameda (Hiroshima Univ.), Noiriharu Suematsu (Tohoku Univ.) SR2021-82 |
In the millimeter-wave (mmW) band Wireless Body Area Network (WBAN), the effectiveness of a Carrier Sense Multiple Acces... [more] |
SR2021-82 pp.111-117 |
SR |
2021-11-05 13:50 |
Online |
Online |
Millimeter-Wave WBAN Fairness Improvement Method by Back-off Control Using Busy-Time Ratio Tsukasa Chida (Tohoku Univ.), Suguru Kameda (Hiroshima Univ.), Noriharu Suematsu (Tohoku Univ.) SR2021-56 |
Wireless Body Area Network (WBAN) using the millimeter-wave (mmW) band (60-GHz band) is expected to be one of the method... [more] |
SR2021-56 pp.91-97 |
RCS, SR, SRW (Joint) |
2021-03-04 09:50 |
Online |
Online |
Fundamental Investigation of Backoff Control Method for Fair transmission opportunity of mmW WBAN in Over Crowded Environment Tsukasa Chida, Suguru Kameda, Noriharu Suematsu (Tohoku Univ.) SR2020-69 |
Wireless Body Area Network (WBAN) is a communication system between wearable devices in human body area.
WBAN using mi... [more] |
SR2020-69 pp.35-39 |
SANE |
2021-01-28 15:45 |
Online |
Online |
A Proposal of an Advanced Chirp Sequence Radar using Narrowband Interference Canceller Daiki Ammen, Masahiro Umehira, Xiaoyan Wang, Shigeki Takeda (Ibaraki Univ.) SANE2020-43 |
A chirp sequence radar is promising for automotive applications for an automated driving car and advanced driver assista... [more] |
SANE2020-43 pp.32-37 |
WBS, MICT |
2019-07-16 14:20 |
Ibaraki |
Ibaraki University(Mito Campus) |
MAC protocol with interference mitigation using negotiation among coordinators in multiple wireless body area networks Shunya Ogawa, Ryuji Kohno (YNU) WBS2019-15 MICT2019-16 |
In this paper,we propose a new MAC protocol in presence of multiple wireless Body
Area Network(BAN)s which can for redu... [more] |
WBS2019-15 MICT2019-16 pp.29-33 |
WBS, ITS, RCC |
2018-12-06 13:00 |
Okinawa |
Miyako Island Hirara Port Terminal Bldg. |
[Poster Presentation]
PER characteristic of cooperative transmission for WBAN system Tatsuya Kosaka, Tetsushi Ikegami (Meiji Univ.) WBS2018-51 ITS2018-34 RCC2018-82 |
In the Wireless Body Area Network system (WBAN), cooperative transmission is compared with direct communication and eval... [more] |
WBS2018-51 ITS2018-34 RCC2018-82 pp.131-134 |
AP, MW (Joint) |
2018-09-21 09:55 |
Tokyo |
Tokyo Tech |
Evaluation of Channel Capacity of Millimeter-Wave WBAN in User-Dense Condition Taichi Yokouchi, Kohei akimoto, Mizuki Motoyoshi, Suguru Kameda, Noriharu Suematsu (Tohoku Univ.) MW2018-63 |
Wireless body area network (WBAN) is a communication system between wearable devices in the human body area.Inter-networ... [more] |
MW2018-63 pp.23-28 |
RCC, MICT |
2018-05-24 13:00 |
Tokyo |
Tokyo Big Sight |
[Poster Presentation]
A Study of MAC Superframe structure on Wireless Body Area Network Masaaki Shizuka, Tetsushi Ikegami (Meiji Univ) RCC2018-8 MICT2018-8 |
In recent years, Wireless Body Area Network (WBAN) technology is studied actively because of applying medical filed. In ... [more] |
RCC2018-8 MICT2018-8 pp.35-38 |
RCC, MICT |
2018-05-24 13:00 |
Tokyo |
Tokyo Big Sight |
[Poster Presentation]
Performance comparison of Polar code for Wireless body area network Kenshiro Osada, Tetsushi ikegami (Meiji Univ.) RCC2018-9 MICT2018-9 |
In a wireless body area network (WBAN) which is expected to be used for medical applications, highly reliable communicat... [more] |
RCC2018-9 MICT2018-9 pp.39-43 |
RCC, MICT |
2018-05-24 13:00 |
Tokyo |
Tokyo Big Sight |
[Poster Presentation]
A study on the effect of cooperative transmission for WBAN system Tatsuya Kosaka, Tetsushi Ikegami (Meiji Univ.) RCC2018-10 MICT2018-10 |
In the Wireless Body Area Network system (WBAN), cooperative transmission is compared with direct communication and eval... [more] |
RCC2018-10 MICT2018-10 pp.45-49 |
RCC, MICT |
2018-05-25 14:20 |
Tokyo |
Tokyo Big Sight |
Learning and recognition with neural network of heart beats sensed by WBAN for stress estimate for rehabilitation Yukihiro Kinjo, Yoshitomo Sakuma, Ryuji Kohno (YNU) RCC2018-21 MICT2018-21 |
In rehabilitation, approach according to personality is important.
So we estimate patients' emotion by neural network(N... [more] |
RCC2018-21 MICT2018-21 pp.101-104 |
WBS, IT, ISEC |
2018-03-09 12:05 |
Tokyo |
Katsusika Campas, Tokyo University of Science |
Consideration of error correction code suitable for WBAN Akihiro Yamada, Hiroyoshi Morita, Akiko Manada (The Univ. of Electro-Communications) IT2017-132 ISEC2017-120 WBS2017-113 |
(To be available after the conference date) [more] |
IT2017-132 ISEC2017-120 WBS2017-113 pp.173-177 |
RCS, SR, SRW (Joint) |
2018-02-28 16:05 |
Kanagawa |
YRP |
Internet of Things for Water Quality Monitoring Application Rosdiadee Nordin (UKM), Hafizal Mohamad, Nordin Ramli (MIMOS), Kentaro Ishizu, Fumihide Kojima (NICT), Mahamod Ismail, Mushrifah Idris (UKM) SR2017-116 |
In this paper, we aim to demonstrate the effectiveness of Internet of Things (IoT) solution for water quality monitoring... [more] |
SR2017-116 pp.31-34 |
SIS |
2017-12-14 10:30 |
Tottori |
Tottori Prefectural Center for Lifelong Learning |
A study on convergence characteristic of IIR subband adaptive notch filters Yasutomo Kinugasa, Tomoki Nakaoka (NIT, Matsue College), Naoto Sasaoka, Yoshio Itoh (Tottori Univ.), Masaki Kobayashi (Chubu Univ.) SIS2017-33 |
A cascaded second order adaptive notch filters implemented using an allpass filter, for the elimination of multiple sinu... [more] |
SIS2017-33 pp.1-4 |
ITS, WBS, RCC |
2017-12-14 10:00 |
Okinawa |
Tiruru/Okinawa Jichikaikan |
[Poster Presentation]
A study on the effect of cooperative transmission for WBAN system Tatsuya Kosaka, Tetsushi Ikegami (Meiji Univ.) WBS2017-45 ITS2017-22 RCC2017-61 |
In the WBAN system, cooperative transmission is compared with direct communication and evaluated. The cooperative transm... [more] |
WBS2017-45 ITS2017-22 RCC2017-61 pp.57-60 |
ITS, WBS, RCC |
2017-12-14 13:30 |
Okinawa |
Tiruru/Okinawa Jichikaikan |
[Poster Presentation]
Study on Polar codes for WBAN Kenshiro Osada, Tetsushi Ikegami, Naoki Ishii (Meiji Univ.) WBS2017-58 ITS2017-35 RCC2017-74 |
In a wireless body area network (WBAN) which is expected to be used for medical applications, highly reliable communicat... [more] |
WBS2017-58 ITS2017-35 RCC2017-74 pp.129-133 |
CQ |
2017-08-29 12:10 |
Tokyo |
Tokyo University of Science |
Transmission Power Control Using Human Motion Classification in Daily Human Motion Scenarios for WBAN Sukhumarn Archasantisuk, Takahiro Aoyagi (Tokyo Tech) CQ2017-64 |
In this paper, transmission power control using human motion classification for wireless body area network (WBAN) is dev... [more] |
CQ2017-64 pp.75-80 |