Committee |
Date Time |
Place |
Paper Title / Authors |
Abstract |
Paper # |
SRW, SeMI, CNR (Joint) |
2019-11-05 13:50 |
Tokyo |
Kozo Keisaku Engineering Inc. |
[Invited Lecture]
XOR-Physical Layer Network Coding with Adaptive Precoding and its Performance Satoshi Denno (Okayama Univ.) SRW2019-23 SeMI2019-70 CNR2019-17 |
[more] |
SRW2019-23 SeMI2019-70 CNR2019-17 pp.7-12(SRW), pp.45-50(SeMI), pp.7-12(CNR) |
SRW, SeMI, CNR (Joint) |
2019-11-06 13:25 |
Tokyo |
Kozo Keisaku Engineering Inc. |
[Poster Presentation]
An Interference and Non-Linear Distortion Noise Canceler in LED Visible Light Indoor Wireless Communications Keitaro Hirai, Shigeru Tomisato, Satoshi Denno, Kazuhiro Uehara (Okayama Univ.) SRW2019-39 SeMI2019-83 CNR2019-33 |
This paper studies a collaborative cancelation method for non-linear distortion noise caused by LED non-linearity of a t... [more] |
SRW2019-39 SeMI2019-83 CNR2019-33 pp.63-68(SRW), pp.83-88(SeMI), pp.61-66(CNR) |
SRW, SeMI, CNR (Joint) |
2019-11-06 13:25 |
Tokyo |
Kozo Keisaku Engineering Inc. |
[Poster Presentation]
Spatially Parallel Transmission by Collaborative Non-Linear Distortion Compensation in Both Transmitter and Receiver for LED Visible Light Communications Saroma Era, Sigeru Tomisato, Satoshi Denno, Kazuhiro Uehara (Okayama Univ.) SRW2019-42 SeMI2019-86 CNR2019-36 |
This paper evaluates transmission performance improvement by collaborative non-linear distortion compensation in both tr... [more] |
SRW2019-42 SeMI2019-86 CNR2019-36 pp.73-78(SRW), pp.93-98(SeMI), pp.71-76(CNR) |
MIKA (2nd) |
2019-10-04 10:15 |
Hokkaido |
Hokkaido Univ. |
[Poster Presentation]
Receivable signal number evaluation in spatially parallel transmission for LED visible light wireless communications Yusuke Kamei, Shigeru Tomisato, Satoshi Denno, Kazuhiro Uehara (Okayama Univ.) |
The traffic of wireless communication systems has greatly increased due to the expansion of smartphones and IoT. Visible... [more] |
|
MIKA (2nd) |
2019-10-04 10:15 |
Hokkaido |
Hokkaido Univ. |
[Poster Presentation]
A Study on Signal Separation and Demodulation Method for Collided Signal in Stored Batch Signal Processing Toru Nishiyama (Okayama Univ.), Ryuku Miyachi, Humiya Ohno, Shigeru Tomisato, Satoshi Denno, Kazuhiro Uehara (Okayama Univ.) |
[more] |
|
RCS, SR, SRW (Joint) |
2019-03-07 11:20 |
Kanagawa |
YRP |
Lighting Arrangement for Spatially Parallel Signal Transmission in LED Visible Light Communications Yusuke Kamei, Shigeru Tomisato, Satoshi Denno, Kazuhiro Uehara (Okayama Univ.) SRW2018-64 |
This paper evaluates interference characteristics according to LED lighting and photodetector arrangement in
spatially ... [more] |
SRW2018-64 pp.41-46 |
RCS, SR, SRW (Joint) |
2019-03-08 09:50 |
Kanagawa |
YRP |
A Study on Joint Probability Distribution Property of Busy/Idle Duration and its Impact on the Performance of Auto-regressive Based Predictor over Real Environmental Channel Yafei Hou (Okayama Univ.), Kazuto Yano (ATR), Satoshi Denno (Okayama Univ.), Yoshinori Suzuki (ATR) SR2018-137 |
For improving the spectrum efficiency (SE), one of efficient methods is allocating multiple bands for simultaneous wirel... [more] |
SR2018-137 pp.89-96 |
RCS, SIP, IT |
2019-02-01 10:50 |
Osaka |
Osaka University |
A Study on Categorization of Busy/Idle History for Autoregressive Based Busy/Idle Duration Prediction over Real Environmental Channel Yusuke Tanaka, yafei HOU, Satoshi Denno (Okayama Univ.), Yoshinori Suzuki (ATR) IT2018-56 SIP2018-86 RCS2018-263 |
Predicting the channel spectrum (busy or idle) is one of important but challenging topic for a cognitive radio (CR) syst... [more] |
IT2018-56 SIP2018-86 RCS2018-263 pp.121-126 |
SRW |
2019-01-15 13:50 |
Kanagawa |
Mitsubishi Electric (Oofuna) |
Relay Selection Method in XOR Physical Layer Network Coding Kazuma Yamamoto, Satoshi Denno, Hou Yafei (Okayama Univ.) SRW2018-51 |
Recently, high-speed wireless communications are demanded because traffic loaded on wireless network has grown high sinc... [more] |
SRW2018-51 pp.31-36 |
RCS, NS (Joint) |
2018-12-21 14:45 |
Hiroshima |
Onomichi City Hall |
An Iterative Soft Output Decoding with Linear Filter Based on MMSE for Overloaded MIMO Tsubasa Inoue, Satoshi Denno, Yafei Hou (Okayama Univ.) RCS2018-241 |
In this paper, we propose an iterative soft-output decoding with linear filter based on MMSE for overloaded MIMO. Althou... [more] |
RCS2018-241 pp.131-136 |
RCS, AP (Joint) |
2018-11-20 13:40 |
Okinawa |
Okinawa Industry Support Center |
[Invited Lecture]
An Random Access Technique With Multiuser MIMO in Uplink Wireless Channels Satoshi Denno, Yusuke Murakami (Okayama Univ.) AP2018-108 RCS2018-185 |
[more] |
AP2018-108 RCS2018-185 pp.35-40(AP), pp.43-48(RCS) |
ASN, SRW (Joint) |
2018-11-05 13:00 |
Tokyo |
Tokyo Denki University, Tokyo Senju Campus |
[Poster Presentation]
Interference Characteristic Evaluation by Lighting Placement in LED Visible Light Communications Yusuke Kamei, Shigeru Tomisato, Satoshi Denno, Kazuhiro Uehara (Okayama Univ.) ASN2018-67 SRW2018-32 |
This paper evaluates interference characteristics according to LED lighting and photodetector position in signal transmi... [more] |
ASN2018-67 SRW2018-32 pp.71-74(ASN), pp.47-50(SRW) |
SRW |
2018-08-20 11:20 |
Okayama |
Okayama Univ. |
A Study of Autoregressive Model and Autoregressive Integrated Model Based Channel Idle/ Busy Status Duration Prediction for Real Environment WLAN Channel Naoya Hokimoto, Yafei Hou, Satoshi Denno (Okayama Univ.) SRW2018-13 |
Recently, due to the increase of huge number of wireless devices such as smartphones or sensors, mobile wireless traffic... [more] |
SRW2018-13 pp.25-30 |
SRW |
2018-08-20 13:35 |
Okayama |
Okayama Univ. |
A compensation method of non-linear distortion in both transmitter and receiver of LED visible light communications Takeshi Okada, Shigeru Tomisato, Satoshi Denno, Kazuhiro Uehara (Okayama Univ) SRW2018-16 |
This paper proposes a collaborative nonlinear distortion compensation method for LED nonlinear distortion in both transm... [more] |
SRW2018-16 pp.43-46 |
ASN, NS, RCS, SR, RCC (Joint) |
2018-07-11 09:30 |
Hokkaido |
Hakodate Arena |
Characteristic Improvement Method for Cancellation of Periodic Interference Performing Select Sideband Yuya Kimura, Satoshi Denno, Yafei Hou (Okayama Univ.) RCS2018-80 |
This paper proposes adaptive sideband selection for periodic interference cancellation using digital signal processing. ... [more] |
RCS2018-80 pp.1-5 |
SRW |
2018-06-08 13:15 |
Tokyo |
Shibaura Institute of Technology |
Overload Wireless Access using the User Selection and Pre-coding Ryoko Sasaki, Satoshi Denno, Yafei Hou (Okayama Univ) SRW2018-5 |
[more] |
SRW2018-5 pp.21-25 |
SIP, IT, RCS |
2018-01-22 13:55 |
Kagawa |
Sunport Hall Takamatsu |
Side band selection for cancellation of periodic interference Yuya Kimura, Satoshi Denno, Yafei Hou (Okayama Univ.) IT2017-65 SIP2017-73 RCS2017-279 |
Electric vehicles are gradually becoming popular.
In principle, electric vehicles generate no hazardous materials such ... [more] |
IT2017-65 SIP2017-73 RCS2017-279 pp.61-65 |
AP, RCS (Joint) |
2017-11-09 16:25 |
Fukuoka |
Fukuoka University |
[Invited Talk]
Adaptive Periodic Interference Cancellation for Narrow-Band Wireless Systems Satoshi Denno, Yuichiro Sato, Yuya Kimura (Okayama Univ.) AP2017-132 RCS2017-237 |
[more] |
AP2017-132 RCS2017-237 pp.131-136(AP), pp.187-192(RCS) |
SRW |
2017-08-21 13:50 |
Kyoto |
Kyoto University |
A non-linear distortion compensation method in a receiver of LED visible light communications Takeshi Okada, Takahiro Chikamori, Shigeru Tomisato, Satoshi Denno, Kazuhiro Uehara (Okayama Univ.) SRW2017-14 |
This paper proposes a method to compensate nonlinear distortion of LED of transmitter by for receiver side in visible li... [more] |
SRW2017-14 pp.31-34 |
NS, ASN, RCC, RCS, SR (Joint) |
2017-07-19 16:00 |
Hokkaido |
Hokkaido Univ. |
Performance Evaluation of Collaborative Interference Canceller with Quantization Error and Spatial Correlation Rieko Saiki, Daisuke Umehara (Kyoto Inst of Tech.), Hidekazu Murata (Kyoto Univ.), Satoshi Denno (Okayama Univ.) RCS2017-104 |
Collaborative Interference Canceller (CIC) has been proposed to enhance cellular networks. CIC enables us to a large sca... [more] |
RCS2017-104 pp.67-72 |