Committee |
Date Time |
Place |
Paper Title / Authors |
Abstract |
Paper # |
SIP, IT, RCS |
2021-01-22 15:15 |
Online |
Online |
A Study on the Possibility of Estimating Multiple Communication Environment Information by Deep Learning Method Using Received Signal Spectrogram Shun Kojima (Chiba Univ.), Kazuki Maruta (Tokyo Tech.), Chang-Jun Ahn (Chiba Univ.) IT2020-97 SIP2020-75 RCS2020-188 |
In the next generation mobile radio communication systems, it is essential to obtain the communication environment infor... [more] |
IT2020-97 SIP2020-75 RCS2020-188 pp.188-193 |
ITS, WBS, RCC |
2020-12-15 13:50 |
Online |
Online |
Classification of pedestrians existing in visible or blind areas using Doppler radar
-- An Approach Using Long Short-Term Memory -- Sora Hayashi, Daiki Isobe (Ritsumeikan Univ.), Kenshi saho (Toyama Pref. Univ.), Masao Masugi (Ritsumeikan Univ.) WBS2020-29 ITS2020-25 RCC2020-32 |
In this report, the walking positions of pedestrians, whether they are directly visible from the observation point or in... [more] |
WBS2020-29 ITS2020-25 RCC2020-32 pp.121-125 |
SRW, SeMI, CNR (Joint) |
2020-11-26 09:00 |
Online |
Online |
Doppler Frequency Detection Using Channel Impulse Response Kazuma Hotta, Satoshi Denno, Hou Yafei (Okayama Univ.) SRW2020-25 |
With the spread of the Internet of Things (IoT), the detection of terminal movement has become an issue. In the IoT, the... [more] |
SRW2020-25 pp.1-6 |
RCS, AP, UWT (Joint) |
2020-11-26 11:20 |
Online |
Online |
[Invited Lecture]
Adaptive digital down-conversion for underwater acoustic communication Mitsuyasu Deguchi, Yukihiro Kida, Takuya Shimura (JAMSTEC) AP2020-86 RCS2020-125 |
In underwater acoustic communication, effects of the Doppler shift is much larger than that of the radio communication i... [more] |
AP2020-86 RCS2020-125 pp.72-77(AP), pp.87-92(RCS) |
SANE |
2019-10-31 11:00 |
Overseas |
KOREA (Jeju) |
Measurement of Angular Velocity Vector of Rotating Sports Ball using Doppler Radar Isao Matsushima, Satoshi Kouya, Mitsuya Motohashi (Denki Univ.) SANE2019-50 |
In this study, we propose a method to measure the angular velocity vector of a rotating ball using multiple Doppler rada... [more] |
SANE2019-50 pp.19-24 |
EA, ASJ-H |
2019-08-08 14:40 |
Miyagi |
Tohoku Univ. |
Moving sound source for sound field rendering Takao Tsuchiya (Doshisha Univ.), Masashi Kanamori, Takashi Takahashi (JAXA) EA2019-26 |
In this report, the implementation of moving sound source in the sound field rendering is discussed. To implement the m... [more] |
EA2019-26 pp.21-26 |
AP, SANE, SAT (Joint) |
2019-07-19 11:15 |
Miyagi |
Tohoku Univ. |
Performance evaluations of position detection method using unmanned aerial vehicles based on maximum positioning error estimation method Yuki Horikawa, Hiroyasu Ishikawa (Nihon Univ.) SAT2019-16 |
A typical Unmanned aircraft system (UAS) is composed of several unmanned aerial vehicles (UAVs) and a ground station. It... [more] |
SAT2019-16 pp.43-48 |
US |
2019-02-22 14:30 |
Kanagawa |
|
Detection of a vessel mimicking lymph channel by contrast enhanced active Doppler ultrasonography Saito Katsuya, Yoshida Kenji, Omura Masaaki, Tamura Kazuki, Yamaguchi Tadashi (Chiba Univ.) US2018-114 |
This report proposed a method for detecting lymph vessels, named contrast enhanced active Doppler ultrasonography(CEADUS... [more] |
US2018-114 pp.33-37 |
ASN |
2019-01-29 10:50 |
Kagoshima |
Kyuukamura Ibusuki |
MUSIC Algorithm-based Heart Rate Estimation with Doppler Sensor Kohei Yamamoto, Kentaroh Toyoda, Tomoaki Ohtsuki (Keio Univ.) ASN2018-89 |
Heartbeat is one of the major signals that provide the crucial information on our health. Specifically, the HR (Heart Ra... [more] |
ASN2018-89 pp.59-64 |
SANE |
2019-01-25 10:10 |
Nagasaki |
Nagasaki Prefectural Art Museum |
TOA Method Using Additional Doppler Measurements in a Multipath Environment Yoshio Kosuge, Tadashi Koga, Hiromi Miyazaki, Xiaodong Lu (ENRI), Takayuki Inaba (UEC) SANE2018-100 |
We reported that we can estimate target location, target velocity and range bias errors using range with bias error due ... [more] |
SANE2018-100 pp.59-64 |
SANE |
2018-11-08 13:30 |
Overseas |
China (Xuchang) |
Effects of Lunar Revolution on the Performance of the Moon-Based Synthetic Aperture Radar Zhen Xu (RADI/UCAS), Kun-shan Chen (UCAS) SANE2018-56 |
The Moon-based synthetic aperture radar (Moon-based SAR) offers an unprecedented temporal and spatial coverages in Earth... [more] |
SANE2018-56 pp.5-9 |
ASN, SRW (Joint) |
2018-11-06 15:45 |
Tokyo |
Tokyo Denki University, Tokyo Senju Campus |
Accurate Doppler Sensor-based Heartbeat Estimation by Reducing Body Movement Noise via CA-CFAR Applying Adaptive Guard Cell Length Approach Ryosuke Hiromatsu, Tomoaki Ohtsuki, Kentaroh Toyoda, Kohei Yamamoto (Keio Univ.) ASN2018-77 |
It is known that stress can be estimated by measuring heartbeat interval variation. Thus, many methods of non-contact he... [more] |
ASN2018-77 pp.131-136 |
SANE |
2018-06-22 16:05 |
Ibaraki |
Tsukuba Space Center, JAXA |
Development of spread spectrum command receiver for space use Mitsuhiro Nakadai, Chihaya Kato, Masanobu Yajima (JAXA), Hideto Okada, Masanobu Ohtake, Chihiro Sakakibara (NEC Space) SANE2018-20 |
Although the spread spectrum achieves stable communication by suppressing interferer by spreading process, since the sat... [more] |
SANE2018-20 pp.39-44 |
EMM |
2018-01-30 10:25 |
Miyagi |
Tohoku Univ. (Aobayama Campus) |
An application of gesture detection system using acoustic waves on commodity PC Atsuhito Udo, Naofumi Aoki, Yoshinori Dobashi, Tsuyoshi Yamamoto (Hokkaido Univ.) EMM2017-73 |
The booming of consumer electronic devices led to hand gestures being focused on as a natural means of man-machine commu... [more] |
EMM2017-73 pp.37-42 |
MW |
2017-12-19 13:00 |
Tokyo |
|
Tracking 1D Hand Motion Directivity by Estimating Doppler Frequency of CSI Information from Commodity Wi-Fi Devices Nopphon Keerativoranan, Jun-ichi Takada (Titech) MW2017-145 |
Device-free hand motion tracking in the air becomes an essential tool for today human-computing interaction applications... [more] |
MW2017-145 pp.19-24 |
US |
2017-08-31 14:25 |
Kanagawa |
|
Sea Trial Evaluation of Underwater Acoustic Communication Using Data Selective Rake Reception Shingo Yoshizawa, Hiroshi Tanimoto (Kitami Inst. of Tech.), Yusaku Mabuchi, Takashi Saito (Mitsubishi Electric TOKKI Systems Corporation), Tomoya Tsukui, Shinichi Sawada (IHI) US2017-53 |
Underwater acoustic communication (UAC) is used as a communication means for data collection and remote control in auton... [more] |
US2017-53 pp.37-40 |
EA, ASJ-H |
2017-07-21 13:40 |
Hokkaido |
Hokkaido Univ. |
[Poster Presentation]
A study on audio applications utilizing inaudible frequency Naofumi Aoki, Shouhei Suda, Yudai Takigami, Kouhei Yamakami, Tsuyoshi Yamamoto (Hokkaido Univ.) EA2017-14 |
As shown in the widespread adoption of Hi-Resolution audio format, the potentials of audio devices has been much expande... [more] |
EA2017-14 pp.79-84 |
EA, ASJ-H |
2017-07-21 13:40 |
Hokkaido |
Hokkaido Univ. |
[Poster Presentation]
A study on gesture detection system using ultrasonic waves on commodity PC Atsuhito Udo, Naofumi Aoki, Yoshinori Dobashi, Tsuyoshi Yamamoto (Hokkaido Univ.) EA2017-18 |
The booming of consumer electronic devices led to hand gestures being focused on as a natural means of man-machine commu... [more] |
EA2017-18 pp.103-106 |
SIS |
2017-06-02 10:20 |
Oita |
Housen-Sou (Beppu) |
Underwater Acoustic Communication Experiment in Harbor with Long Delay Multipath and Doppler Shift Shingo Yoshizawa, Hiroshi Tanimoto (Kitami Inst. of Tech.), Takashi Saito, Yusaku Mabuchi (Mitsubishi Electric TOKKI Systems Corporation), Tomoya Tsukui, Shinichi Sawada (IHI) SIS2017-13 |
Underwater acoustic communication (UAC) is used for data collection and remote control in autonomous underwater vehicles... [more] |
SIS2017-13 pp.65-70 |
US |
2017-05-22 14:45 |
Tokyo |
|
Distortion-Free AGC/ALC for Fetal Doppler Audio Signal Envelop Seiji Matsumoto (Asahikawa Med. Univ. Hospital), Manabu Koda (Akibagaoka Lab.), Yasuhito Takeuchi (Asahikawa Med. Univ.) US2017-17 |
Abstract: When applying an instantaneous AGC/ALC to fetal Doppler signal, the envelop distortion caused by rapid gain c... [more] |
US2017-17 pp.19-21 |