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All Technical Committee Conferences (Searched in: All Years)
| Committee | Date Time | Place | Paper Title / Authors | Abstract | Paper # | |
| NS, IN (Joint) |
2024-02-29 10:45 |
Okinawa | Okinawa Convention Center | Mobility Control for optimal Location for high Communication Quality of Intra and Inter Body Area Networks Jihyeok Yang (Nagoya Univ.), Kobayashi Takumi, Anzai Daisuke (NITech), Tutomu Murase (Nagoya Univ.)  IN2023-68 |
Under the coexistence of multiple BANs (BAN: Body Area Network), the mesh network of BANs has been in thelimelight. In a... [more] | IN2023-68 pp.19-24 |
| NC, MBE, NLP, MICT (Joint) [detail] |
2024-01-24 16:10 |
Tokushima | Naruto University of Education | Human Body Communication/2.4 GHz Wireless Communication Dual-use Wearable Antenna for WBAN Yukino Sasaki, Dairoku Muramatsu (UEC) NLP2023-94 MICT2023-49 MBE2023-40 |
This paper proposes a wearable antenna capable of dual-operation at 21 MHz for Human Body Communication (HBC) and at 2.4... [more] | NLP2023-94 MICT2023-49 MBE2023-40 pp.58-61 |
| OCS, CS (Joint) |
2024-01-12 13:55 |
Kagoshima | Performance evaluation of BCH code and Polar codes in body area network Shuhei Yamaguchi, Takahiko Nakamura, Hideo Yoshida, Soichiro Kametani (MELCO) CS2023-103 |
Polar codes are error correcting codes proposed by Arikan, and various decoding schemes have been proposed to achieve ex... [more] | CS2023-103 pp.43-48 |
|
| SRW, MICT, WBS | 2023-07-21 10:25 |
Niigata | Niigata Univ. TOKIMATE (Primary: On-site, Secondary: Online) |
An Effect on Initial Connection Time of SmartBAN Transceivers by RF Interference Tatsuki Hiramatsu, Takahiro Ito (Hirosima City Univ.), Daisuke Anzai (Nagoya Inst. of Tech.), Tanaka Hirokazu (Hirosima City Univ.) WBS2023-20 SRW2023-18 MICT2023-17 |
Recently, body area network (BAN) has been extensively studied for realizing healthcare IoT systems. The International E... [more] | WBS2023-20 SRW2023-18 MICT2023-17 pp.32-36 |
| SRW, MICT, WBS | 2023-07-21 10:50 |
Niigata | Niigata Univ. TOKIMATE (Primary: On-site, Secondary: Online) |
A Study on RSSI Prediction using LSTM Considering Inter-Channel Correlation in SmartBAN Taito Toda, Takahiro Ito, Masaaki Yamanaka, Hirokazu Tanaka (Hiroshima City Univ.) WBS2023-21 SRW2023-19 MICT2023-18 |
The demand for healthcare monitoring in daily life using wearable devices is increasing as a result of the shortage of d... [more] | WBS2023-21 SRW2023-19 MICT2023-18 pp.37-42 |
| SRW, MICT, WBS | 2023-07-21 12:15 |
Niigata | Niigata Univ. TOKIMATE (Primary: On-site, Secondary: Online) |
Measurement of human body blocking for inter-WBAN interference in user-dense condition using 2 by 2 elements patch array antenna at 15 GHz Renta Fukui, Kohei Akimoto, Teruo Tobana (Akita Prefectural Univ.) WBS2023-24 SRW2023-22 MICT2023-21 |
Wireless body area network (WBAN) is a communication system between multiple devices on the human body. Inter-network in... [more] | WBS2023-24 SRW2023-22 MICT2023-21 pp.55-60 |
| RISING (3rd) |
2022-10-31 13:00 |
Kyoto | Kyoto Terrsa (Day 1), and Online (Day 2, 3) | [Poster Presentation]
Real-time Heartbeat Signal Transmission System using Human Body Communication Ryogo Urushidate, Fukuro Koshiji (Tokyo Polytechnic Univ.) |
This study focused on human body communication (HBC) technology, one of the promising body area network technologies, to... [more] | |
| MICT, WBS | 2022-07-25 15:50 |
Okayama | Okayama Prefectural University | [Invited Lecture]
Millimeter-Wave Wireless Body Area Network Adaptable to Overcrowded Environments Suguru Kameda (Hiroshima Univ.), Kohei Akimoto (Akita Pref. Univ.), Noriharu Suematsu (Tohoku Univ.) WBS2022-33 MICT2022-33 |
In a wireless body area network (WBAN), it is essential to improve the efficiency and simplicity of interference control... [more] | WBS2022-33 MICT2022-33 pp.94-98 |
| 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 |
| NLP, MICT, MBE, NC (Joint) [detail] |
2022-01-22 14:55 |
Online | Online | Interference Prediction for SmartBAN Channel Migration Using LSTM Takahiro Ito, Aoi Nakamae (Hiroshima City Univ.), Masaaki Yamanaka (Japan Coast Guard Academy), Hirokazu Tanaka (Hiroshima City Univ.) NLP2021-110 MICT2021-85 MBE2021-71 |
Healthcare monitoring using wearable sensors is attracting attention. SmartBAN, which is a communication standard for me... [more] | NLP2021-110 MICT2021-85 MBE2021-71 pp.175-180 |
| NLP, MICT, MBE, NC (Joint) [detail] |
2022-01-22 15:45 |
Online | Online | A Study on IEEE 802.15.6 UWB PHY Utilizing Super Orthogonal Convolutional Codes Kento Takabayashi (Okayama Prefectural Univ.), Hirokazu Tanaka (Hiroshima City Univ), Katsumi Sakakibara (Okayama Prefectural Univ.) NLP2021-112 MICT2021-87 MBE2021-73 |
The use of the Internet of Things (IoT) in the medical and healthcare fields has received much attention. It is called t... [more] | NLP2021-112 MICT2021-87 MBE2021-73 pp.187-192 |
| 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 |
| EMCJ | 2021-04-16 14:35 |
Online | Online | Body Posture De-embedding for Channel Modeling of Wireless Body Area Networks Taito Nishio, Takahiro Aoyagi (titech) EMCJ2021-4 |
In this paper, in order to express the time variation of the On-body channel for Wireless Body Area Network, the regress... [more] | EMCJ2021-4 pp.15-20 |
| 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 |
| RCS | 2020-10-23 15:10 |
Online | Online | [Invited Talk]
Millimeter-Wave Wireless Body Area Network Adaptable to Overcrowded Environments Suguru Kameda (Tohoku Univ.), Kohei Akimoto (Akita Pref. Univ.), Taichi Yokouchi, Mizuki Motoyoshi, Noriharu Suematsu (Tohoku Univ.) RCS2020-109 |
Wireless body area network (WBAN) using millimeter wave (mmW) is expected to solve inter-WBAN interference problem. The ... [more] | RCS2020-109 p.92 |
| EMCJ, MICT (Joint) |
2020-03-13 11:00 |
Tokyo | Kikai-Shinko-Kaikan Bldg. (Cancelled but technical report was issued) |
Human motion classification by convolutional neural network using signal strength of WBAN Shintaro Sano, Aoyagi Takahiro (TokyoTech) MICT2019-53 |
In this report, human motion classification by convolutional neural networks (CNNs) using the signal strength of WBANs (W... [more] | MICT2019-53 pp.5-9 |
| SRW | 2020-01-14 13:00 |
Kanagawa | TBD | [Invited Talk]
Millimeter-Wave WBAN for Massive Connect IoT Suguru Kameda (Tohoku Univ.), Kohei Akimoto (Akita Pref. Univ.), Taichi Yokouchi, Mizuki Motoyoshi, Noriharu Suematsu (Tohoku Univ.) SRW2019-54 |
Wireless body area network (WBAN) using millimeter wave is expected to solve inter-WBAN interference problem. The human ... [more] | SRW2019-54 p.19 |
| RISING (2nd) |
2019-11-26 14:10 |
Tokyo | Fukutake Learning Theater, Hongo Campus, Univ. Tokyo | [Invited Lecture]
Reliable and Low-Energy Wireless Body Area Network by Machine Learning
-- Transmission Power Control based on Human Motion Classification using Features Automatically Extracted From Signal Strength -- Shintaro Sano, Takahiro Aoyagi (Tokyo Tech) |
In wireless body area networks (WBANs), both high reliability and low power consumption are required. Our research group... [more] | |
| SR | 2019-11-04 11:00 |
Overseas | Rutgers University Inn & Conference Center, NJ, USA | [Poster Presentation]
Human Body Blocking at 35-50 GHz for inter-WBAN interference Kohei Akimoto, Masashi Kawakami, Teruo Tobana, Yoji Isota (Akita Pref. Univ.) SR2019-66 |
Wireless body area network (WBAN) is a communication system that supports medical or non-medical applications between on... [more] | SR2019-66 pp.5-6 |
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