Committee |
Date Time |
Place |
Paper Title / Authors |
Abstract |
Paper # |
CS, IN, NS, NV (Joint) |
2020-09-11 15:10 |
Online |
Online |
A study of steganography based on error correction code and secret sharing scheme Kaito Onuma, Sumiko Miyata (SIT) CS2020-44 |
In recent years, the opportunity to handle information on the Internet has increased and interest in security has increa... [more] |
CS2020-44 pp.47-52 |
EMM |
2020-01-27 13:50 |
Miyagi |
Tohoku Univ. |
Cochlear delay based audio information hiding with segment selection optimization Candy Olivia Mawalim, Masashi Unoki (JAIST) EMM2019-96 |
The non-blind cochlear delay (CD) based audio information hiding (AIH) has been proposed to deal with the inaudibility a... [more] |
EMM2019-96 pp.11-16 |
IT, SIP, RCS |
2020-01-23 10:15 |
Hiroshima |
Hiroshima City Youth Center |
Experimental Evaluation Results of Acoustic Spread Spectrum Communications Employing Orthogonal Gold Sequences Haruka Toyota, Yuiti Shirasu, Ryuki Sano, Hiroshi Kubo (Ritsumeikan Univ.) IT2019-38 SIP2019-51 RCS2019-268 |
This paper proposes code division multiple access (CDMA) acoustic spread spectrum communications for uplink terrestrial ... [more] |
IT2019-38 SIP2019-51 RCS2019-268 pp.13-18 |
IT, SIP, RCS |
2020-01-23 11:15 |
Hiroshima |
Hiroshima City Youth Center |
A Novel Code Acquisition Scheme Using Multiple Chirp Signals Robust to Initial Frequency Offset Megumi Fukuma, Masatsugu Higashinaka, Nakamura Ryosuke, Hiroshi Aruga (Mitsubishi Electric Corp.) IT2019-46 SIP2019-59 RCS2019-276 |
We propose a novel code acquisition scheme for Direct Sequence Spread Spectrum (DS-SS) robust to initial frequency offse... [more] |
IT2019-46 SIP2019-59 RCS2019-276 pp.63-68 |
EMCJ, EMD, WPT, PEM (Joint) [detail] |
2019-07-19 13:40 |
Tokyo |
Kikai-Shinko-Kaikan Bldg. |
Radiated and Conducted Emissions Reduction for High Power WPT Systems Using Spread Spectrum Koji Ogura, Tetsu Shijo, Masatoshi Suzuki, Yasuhiro Kanekiyo, Kazuhiro Inoue, Shuichi Obayashi, Masaaki Ishida (Toshiba Corp.) EMCJ2019-34 EMD2019-15 |
EMI increases with high power over 100 kW WPT systems. Therefore, the reduction of EMI is very important. In this report... [more] |
EMCJ2019-34 EMD2019-15 pp.25-30 |
RCS |
2019-06-19 16:05 |
Okinawa |
Miyakojima Hirara Port Terminal Building |
Spreading Factor Selection Method for Multiple Gateways Reception in LoRaWAN Chen Muying, Koichi Adachi (UEC) RCS2019-58 |
For the IoT (Internet of Things), it is required to have low cost device and simple network construc- tion. As a solutio... [more] |
RCS2019-58 pp.125-130 |
RCS |
2019-06-21 09:50 |
Okinawa |
Miyakojima Hirara Port Terminal Building |
RCS2019-84 |
This paper proposes code division multiple access (CDMA) acoustic spread spectrum communications for uplink terrestrial ... [more] |
RCS2019-84 pp.273-278 |
SR |
2019-05-31 10:00 |
Tokyo |
Tokyo Big Sight |
[Technology Exhibit]
QZSS short message SS-CDMA communication system
-- Evaluation of transmitting timing control error -- Hiroshi Oguma, Rei Kawai, Takumi Shimada (NIT, Toyama), Takeshi Asai (Next-Dimension), Mizuki Motoyoshi, Suguru Kameda, Noriharu Suematsu (Tohoku Univ.) SR2019-12 |
We have proposed Spread Spectrum Code Division Multiple Access (SS-CDMA) short message communication
using Quasi-Zenith... [more] |
SR2019-12 pp.71-77 |
RCS, SR, SRW (Joint) |
2019-03-06 14:35 |
Kanagawa |
YRP |
[Invited Lecture]
Blind Adaptive Array with Time-Domain Symbol Spreading Kazuki Maruta (Chiba Univ.), Kentaro Nishimori (Niigata Univ.), Yu Nakayama (Aoyama Gakuin Univ.), Chang-Jun Ahn (Chiba Univ.) RCS2018-296 |
This paper proposes a time-domain symbol spreading (TSS) to expand the operational region of the blind adaptive array in... [more] |
RCS2018-296 pp.77-82 |
IN, NS (Joint) |
2019-03-05 13:30 |
Okinawa |
Okinawa Convention Center |
A Study on Performance Evaluation of MIMO Channel with Multilevel Spreading Codes Tatsuya Motoki, Miyuki Hirose, Takehiko Kobayashi (Tokyo Denki Univ.) IN2018-135 |
To suppress the noise enhancement, a new spread spectrum communication system with Gold code had studied in our previous... [more] |
IN2018-135 pp.307-312 |
ITS, IE, ITE-MMS, ITE-HI, ITE-ME, ITE-AIT [detail] |
2019-02-19 10:30 |
Hokkaido |
Hokkaido Univ. |
A Prototype Visible Light V2V Communication and Ranging System Using Spread Spectrum Techniques (3rd Report) Akira John Suzuki, Masahiro Yamamoto, Kiyoshi Mizui (KGU) ITS2018-63 IE2018-84 |
In this report, we experimentally demonstrate a visible light boomerang prototype and verify the feasibility of simultan... [more] |
ITS2018-63 IE2018-84 pp.49-54 |
EA, ASJ-H, EMM, IPSJ-MUS [detail] |
2018-11-21 13:30 |
Ishikawa |
Hotel Koshuen |
Study on spread-spectrum based speech watermarking method by using linear prediction residual Reiya Namikawa, Masashi Unoki (JAIST) EA2018-68 EMM2018-68 |
Direct spread spectrum (DSS) method is well-known as a robust audio information-hiding method.
However, this method has... [more] |
EA2018-68 EMM2018-68 pp.31-36 |
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 |
2018-03-05 14:35 |
Kagoshima |
Naze Community Center (Amami-Shi, Kagoshima) |
[Poster Presentation]
Study on spread-spectrum based speech watermarking method for linear predictive coding Reiya Namikawa, Masashi Unoki (JAIST) EMM2017-79 |
This paper investigates availability of spread-spectrum based speech watermarking
method for linear predictive coding. ... [more] |
EMM2017-79 pp.13-16 |
EMM |
2018-03-05 15:45 |
Kagoshima |
Naze Community Center (Amami-Shi, Kagoshima) |
[Poster Presentation]
Improvement of Emergency Broadcasting System Based on Audio Data Hiding Youki Sada, Tetsuya Kojima (NIT, Tokyo College) EMM2017-88 |
The authors have proposed a disaster prevention broadcasting system based on audio data hiding scheme. In this system, m... [more] |
EMM2017-88 pp.55-60 |
ITS, WBS, RCC |
2017-12-14 13:30 |
Okinawa |
Tiruru/Okinawa Jichikaikan |
[Poster Presentation]
Acoustic Communications Employing Spread Spectrum Using Inaudible Frequency Band Yuuki Yasuda, Masashi Takemura, Mai Nakatsuka, Keiji Yamada, Shota Nagano, Souichiro Morita, Akinobu Murayama, Hiroshi Kubo (Ritsumeikan Univ.) WBS2017-52 ITS2017-29 RCC2017-68 |
This paper discusses basic performance of spread spectrum communications for acoustic communications. This spread spectr... [more] |
WBS2017-52 ITS2017-29 RCC2017-68 pp.95-99 |
HCGSYMPO (2nd) |
2017-12-13 - 2017-12-15 |
Ishikawa |
THE KANAZAWA THEATRE |
Proposal and Evaluation of High-accurate Indoor Positioning System Implemented Information Transmission Function using Inaudible Sound Kohei Morishita, Takeru Kadokura, Shigenori Ioroi, Hiroshi Tanaka (KAIT) |
The authors have been developing a highly accurate indoor positioning system using inaudible sounds capable of realizing... [more] |
|
EMM |
2017-11-07 13:00 |
Kagoshima |
Kagoshima Univ. (Inamori Academy) |
A Study of DCT-OFDM-Based Watermarking Scheme Assisted by Error Correcting Code Shogo Shigemoto, Minoru Kuribayashi, Nobuo Funabiki (Okayama Univ.) EMM2017-64 |
There are two variants for the DCT-OFDM-based watermarking scheme that retains high robustness against various kinds of ... [more] |
EMM2017-64 pp.47-52 |
RCS |
2017-10-19 15:55 |
Miyagi |
Tohoku Institute of Technology |
[Invited Lecture]
Massive Connect IoT Using QZSS/GPS High Accuracy Time and Position Information Suguru Kameda (Tohoku Univ.), Hiroshi Oguma (NIT, Toyama College), Noriharu Suematsu (Tohoku Univ.) RCS2017-183 |
The next generation information network is expected to further develop as a social infrastructure in all fields such as ... [more] |
RCS2017-183 p.87 |
CQ |
2017-08-28 13:20 |
Tokyo |
Tokyo University of Science |
[Tutorial Invited Lecture]
Massive Connect IoT: Multiple Access Method Using High Accuracy Time and Position Information Suguru Kameda (Tohoku Univ.) CQ2017-54 |
The next generation information network is expected to further develop as a social infrastructure in all fields such as ... [more] |
CQ2017-54 p.25 |