Committee |
Date Time |
Place |
Paper Title / Authors |
Abstract |
Paper # |
SANE |
2021-12-16 16:55 |
Chiba |
Chiba University (Primary: On-site, Secondary: Online) |
A Study of Obstacles Detection with Group Tracking Method Using mm-Wave Radar on Front and Rear Supporting Safe Bicycle Riding in Urban Bicycle-Dedicated Lane Kazuyuki Hirai, Yaokun Hu, Takeshi Toda (Nihon Univ.) SANE2021-81 |
The development of bicycle lanes has been promoted from the bicycle utilization promotion plan, but there have been acci... [more] |
SANE2021-81 pp.101-106 |
MI, MICT [detail] |
2021-11-05 14:25 |
Online |
Online |
A Basic Study of Frequency-Selection Criterions at Adaptive Pre-Filter of Discrete Wavelet Transform Method for Heart Rate Estimation Using mm-Wave Radar Shunsuke Sato, Yaokun Hu, Takeshi Toda (Nihon Univ.) MICT2021-38 MI2021-36 |
We so far have been investigating methods for discrete wavelet transform (DWT) for estimating heart rate frequency using... [more] |
MICT2021-38 MI2021-36 pp.49-54 |
MI, MICT [detail] |
2021-11-05 14:45 |
Online |
Online |
A Study of Pre-Filter Design for Discrete Wavelet Transform in Heart Rate Estimation from Front and Back Side Using mm-Wave Radar Ryosuke Koyanaka, Shunsuke Sato, Yaokun Hu, Takeshi Toda (Nihon Univ.) MICT2021-39 MI2021-37 |
We have been considering applying discrete wavelet transform (DWT) to heart-rate estimation using 77 GHz band FMCW radar... [more] |
MICT2021-39 MI2021-37 pp.55-59 |
WBS, RCC, SAT, MICT (Joint) [detail] |
2021-05-20 14:25 |
Online |
Online (Zoom) |
A Study of Decreasing Respiratory Frequency Effect Using High Pass Filter in a Pre-Processing of Discrete Wavelet transform on Heart-rate Estimation with mm-Wave FMCW Radar Ryosuke Koyanaka, Shunsuke Sato, Yaokun Hu, Takeshi Toda (Nihon Univ.) WBS2021-9 RCC2021-9 MICT2021-6 |
In recent years, studies on noncontact detection of vital signs such as heartbeat and respiration using radar have progr... [more] |
WBS2021-9 RCC2021-9 MICT2021-6 pp.44-49(WBS), pp.44-49(RCC), pp.28-33(MICT) |
SANE |
2021-05-13 14:05 |
Online |
Online |
Detection of fixed and moving obstacles in front and rear of a Bicycle in an urban bicycle lane using mm-wave FMCW-MIMO radar Kazuyuki Hirai, Yaokun Hu, Takeshi Toda (Nihon Univ.) SANE2021-6 |
The construction of a bicycle lane has been promoted in conjunction with the Bicycle Utilization Promotion Plan and the ... [more] |
SANE2021-6 pp.32-37 |
KBSE |
2021-03-06 13:00 |
Online |
Online |
Efficient Evacuation Support in Mountainous Areas Using UAV Itsuki Tago, Yasushi Kambayashi (NIT) KBSE2020-43 |
We have witnessed various natural disasters in many regions. Even though people pay attention to tsunami, land-slides in... [more] |
KBSE2020-43 pp.54-59 |
EMCJ, MICT (Joint) |
2021-03-05 14:25 |
Online |
Online |
Heart-rate-estimation with Discrete Wavelet Transform using mm-Wave Radar
-- A Study of Adaptive Filtering to Suppress Harmonics -- Shunsuke Sato, Ryosuke Koyanaka, Yaokun Hu, Takeshi Toda (Nihon Univ.) MICT2020-36 |
In this study, we used the millimeter-wave FMCW radar to acquire biological signals. After that, heartbeat signals were... [more] |
MICT2020-36 pp.15-20 |
EMCJ, MICT (Joint) |
2021-03-05 14:45 |
Online |
Online |
Contactless Vital Signs Monitoring of Indoor Moving Human Using the Adaptive Range-bin Selection Joint ICEEMDAN Method for mm-Wave FMCW Radar Yaokun Hu, Shunsuke Sato, Hayato Shinohara, Takeshi Toda (Nihon Univ.) MICT2020-37 |
Due to radar technology development, the research on radar-based non-contact vital signs monitoring has become more matu... [more] |
MICT2020-37 pp.21-26 |
EMCJ, MICT (Joint) |
2021-03-05 15:05 |
Online |
Online |
A Study of Simulation Using Linear Actuator for Heartbeat Waveform extracted with 77GHz FMCW Radar Hayato Shinohara, Yaokun Hu, Takeshi Toda (Nihon Univ.) MICT2020-38 |
In recent years, there has been research on the use of heartbeat signals detected by radar without contact as biometric ... [more] |
MICT2020-38 pp.27-31 |
HIP, VRSJ |
2021-02-18 14:05 |
Online |
Online |
Reappearance of faded afterimages Yushan Hu, Hiroyuki Ito (Kyushu Univ.) HIP2020-76 |
In this study, we investigated the reappearance of a faded negative afterimage by psychophysical methods. We tested blin... [more] |
HIP2020-76 pp.20-24 |
IA, IN (Joint) |
2020-12-15 11:40 |
Online |
Online |
Application Identification Method with Meta-Learning Shun Tobiyama, Bo Hu, Kazunori Kamiya (NTT), Kenji Takahashi (NTT Ltd.) IN2020-40 |
With the continuous evolution of the Internet, a variety of web applications, such as video streaming, social network se... [more] |
IN2020-40 pp.43-48 |
SIS |
2020-12-01 14:50 |
Online |
Online |
A Study on Queue Area Detection Using Person Recognition and Tracking Ningyuan Li, Johei Matsuoka, Kazuya Tago (Tokyo Univ. of Tec.) SIS2020-33 |
The purpose of this study is to realize the measurement of the number of people in the queue by proposing a method for d... [more] |
SIS2020-33 pp.31-34 |
SANE |
2020-11-25 15:15 |
Online |
Online |
A study of objects classification based on SNRs and modal-relative-velocities for bicycle-pedestrian-road objects with millimeter-wave FMCW radar Taiki Irie, Hu Yaokun, Takeshi Toda (Nihon Univ.) SANE2020-36 |
In recent years, the number of bicycle accidents has been increasing in urban areas. In this paper, we conducted an expe... [more] |
SANE2020-36 pp.54-58 |
CS |
2020-11-05 13:45 |
Online |
Online + Central Community Center, Nonoichi Community Center (Primary: Online, Secondary: On-site) |
[Invited Talk]
Distributed Raman Amplification Based Loss Budget Improvement for Optical Access Ryo Igarashi, Masamichi Fujiwara, Takuya Kanai, Kazutaka Hara, Ryo Koma, Jun-ichi Kani, Tomoaki Yoshida (NTT) CS2020-47 |
The loss budget improvement based on optical amplification has been studied for reduction of the number of central offic... [more] |
CS2020-47 pp.1-6 |
EMT, IEE-EMT |
2020-11-05 10:50 |
Online |
Online |
Electromagnetic field analysis of periodic gold nanostructures prepared by physical vapor deposition Yuki Ando, Seiya Kishimoto, Satoshi Kurumi, Shinichiro Ohnuki (Nihon Univ) EMT2020-27 |
[more] |
EMT2020-27 pp.5-8 |
MICT, MI |
2020-11-04 09:30 |
Online |
Online |
A Study of Multi-directional Heart-rate-estimation based on Improved Complete Ensemble Empirical Mode Decomposition with Adaptive Noise using mm-Wave FMCW Radar Yaokun Hu, Shunsuke Sato, Takeshi Toda (Nihon Univ.) MICT2020-7 MI2020-33 |
Vital signs measurement with phase analysis for mm-wave FMCW radar contains various kinds of noise. Furthermore, frequen... [more] |
MICT2020-7 MI2020-33 pp.1-6 |
MICT, MI |
2020-11-04 09:50 |
Online |
Online |
A Study of Multi-directional Heart-rate-estimation with Discrete Wavelet Transform and Band Pass Filter with mm-Wave FMCW Radar Shunsuke Sato, Yaokun Hu, Takeshi Toda (Nihon Univ.) MICT2020-8 MI2020-34 |
When detecting a subject’s biological signals with mm-wave FMCW radar, some interference can be removed by the distance ... [more] |
MICT2020-8 MI2020-34 pp.7-12 |
MI |
2020-09-03 10:45 |
Online |
Online |
[Short Paper]
Prediction of microvascular invasion in hepatocellular carcinoma based on radiomics method using MRI Weibin Wang (Ritsumeikan Univ.), Qingqing Chen (Zhejiang Unvi.), Fang Wang (Zhejiang Unvi), Yutaro Iwamoto (Ritsumeikan Univ.), Xianhua Han (Yamaguchi Univ.), Hongjie Hu, Lanfen Lin (Zhejiang Unvi), Yen-Wei Chen (Ritsumeikan Univ.) MI2020-22 |
[more] |
MI2020-22 pp.25-26 |
RECONF |
2020-05-28 11:35 |
Online |
Online |
Real-time object detection by point cloud information from a TOF camera with an SOC-FPGA Zijian HU, Yoshiki Yamaguchi (Univ.of Tsukuba) RECONF2020-3 |
A Time of Flight (ToF) camera operates by sending a modulated infrared light and receiving the objects reflected light. ... [more] |
RECONF2020-3 pp.13-18 |
NS, IN (Joint) |
2020-03-06 10:00 |
Okinawa |
Royal Hotel Okinawa Zanpa-Misaki (Cancelled but technical report was issued) |
[Technology Exhibit]
Machine learning pipeline for analyzing Large-scale traffic Morikawa Akira, Bo Hu (NTT) NS2019-212 IN2019-103 |
Recently, machine learning becomes promising to automatically extract intelligence from network traffic for cybersecurit... [more] |
NS2019-212 IN2019-103 p.191(NS), p.151(IN) |