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Mitsuru Shinagawa
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2020 – today
- 2023
- [c39]Shumpei Sasaki, Haruka Kamimura, Mitsuru Shinagawa:
Influence of Radiated Noise on Wearable Receivers in Intra-Body Communication. GCCE 2023: 257-259 - [c38]Hiroki Onuki, Mitsuru Shinagawa, Yoshio Kajiya, Kenji Sato:
Using Electromagnetic Field Simulations to Evaluate the Impact of Complex Permeability on Shielding Effectiveness. GCCE 2023: 1087-1089 - 2022
- [c37]Mina Kusano, Mitsuru Shinagawa, Yukito Yamamoto, Yoshio Kajiya, Kenji Sato:
Estimation of Shielding Effectiveness Based on Partial Waveform with Impulse Response. GCCE 2022: 19-22 - [c36]Kiyotaka Hayami, Daichi Kawamoto, Mitsuru Shinagawa, Masayuki Makino, Hiroshi Nakamura, Naoyuki Honma:
Improvement of Signal Power in Intrabody Communication Using an Impedance Adjustment Circuit. GCCE 2022: 25-29 - 2021
- [c35]Mai Tominaga, Mayuko Yamagishi, Mitsuru Shinagawa, Jun Katsuyama, Yoshinori Matsumoto, Nobuhiro Tomosada:
Low-Frequency Characteristics of Laser Noise in Electro-optic Sensor System. GCCE 2021: 752-755 - 2020
- [c34]Naoya Takahashi, Yoshiki Matsui, Sotaro Sawa, Daichi Kawamoto, Mitsuru Shinagawa, Kohei Hamamura, Hiroshi Nakamura, Naohiro Shimizu, Masaya Sugino:
Electric Field Communication using a Wide Metal Plate as the Transmission Path. GCCE 2020: 735-738 - [c33]Koki Yoshioka, Hiroki Tada, Mitsuru Shinagawa, Naohiro Itoh, Kohii Kawahata, Nobunari Tsukamoto, Syuji Kubota, Masaaki Tsuji:
Intra-body Communication using a Thin Two-layer Receiving Electrode. GCCE 2020: 765-768 - [c32]Hiroshi Odajima, Hiroki Tada, Mitsuru Shinagawa, Naohiro Itoh, Kohii Kawahata, Nobunari Tsukamoto, Syuji Kubota, Masaaki Tsuji:
Improvement in Communication Performance of Intra-body Communication via Impedance Adjustment. GCCE 2020: 769-772 - [c31]Hiroki Aoki, Naoki Takano, Mitsuru Shinagawa, Atsushi Miki, Hironori Imamura, Kenji Sato, Toshiaki Asahi:
Millimeter Wave Characteristics of Copper Sintered Transmission Line. GCCE 2020: 899-902
2010 – 2019
- 2019
- [c30]Rikuma Ashizawa, Kenta Nezu, Mitsuru Shinagawa, Kyoji Oohashi, Ken Seo:
Dynamic Signal Measurement of Walking Person with Wrist Device in Intra-body Communication. GCCE 2019: 996-999 - [c29]Rikuma Ashizawa, Hiroki Tada, Sotaro Sawa, Mitsuru Shinagawa, Kyoji Oohashi, Ken Seo:
Dynamic Signal Analysis of Two Walking Persons in Intra-body Communication. ICST 2019: 1-5 - [c28]Yoshiki Matsui, Kenta Nezu, Naoya Takahashi, Koki Yoshioka, Mitsuru Shinagawa, Kohei Hamamura, Hiroshi Nakamura, Naohiro Shimizu:
Electric Field Communication using a Car Body as a Transmission Medium. ICST 2019: 1-5 - [c27]Koki Yoshioka, Yuki Sato, Yutaro Toyoshima, Mitsuru Shinagawa, Masaaki Tsuji, Naohiro Itoh, Kohii Kawahata, Syuji Kubota, Nobunari Tsukamoto:
Radiated Noise Analysis in Differential Detection for Intra-body Communication. ICST 2019: 1-5 - [c26]Hiroki Tada, Koki Yoshioka, Mitsuru Shinagawa:
Reducing Unintentional Signal by SG-contact Devices in Intra-body Communication. TENCON 2019: 1163-1168 - [c25]Naoki Takano, Shokei Numamoto, Mitsuru Shinagawa, Atsushi Miki, Hironori Imamura, Kenji Sato, Toshiaki Asahi:
Influence of Structural Deviation in a Microstrip Patch Antenna on Millimeter Wave Performance. TENCON 2019: 2018-2022 - [c24]Mei Okajima, Takafumi Ogawa, Mitsuru Shinagawa, Yoshinori Matsumoto, Jun Katsuyama, Yoshiaki Tanaka:
Low-Frequency Effectiveness of Differential Detection for Electro-optic Sensor System. TENCON 2019: 2628-2632 - 2018
- [c23]Masashi Ohno, Shokei Numamoto, Mitsuru Shinagawa, Koichiro Tanaka, Hironori Imamura, Kenji Sato, Toshiaki Asahi, Toshiyuki Ono:
Low-Frequency Analysis of Shielding Effectiveness Using Pulse Waveform. GCCE 2018: 96-100 - [c22]Kenta Nezu, Yuki Sato, Mitsuru Shinagawa, Daisuke Saito, Ken Seo, Kyoji Oohashi:
Analysis of Unintentional Signal Propagation in Intra-Body Communication. GCCE 2018: 101-104 - [c21]Tomoya Naoe, Masahiro Yada, Mitsuru Shinagawa, Yoshinori Matsumoto, Jun Katsuyama, Hiroaki Tanaka, Yoshiaki Tanaka:
Invasiveness Estimation of Electro-Optic Probe in Electric Field. ICST 2018: 102-106 - [c20]Takafumi Ogawa, Riku Okada, Masahiro Yada, Mitsuru Shinagawa, Yoshinori Matsumoto, Jun Katsuyama, Hiroaki Tanaka, Yoshiaki Tanaka:
Differential Detection for Reducing Laser Noise in Electro-Optic Sensor System. ICST 2018: 240-244 - [c19]Kenta Nezu, Rikuma Ashizawa, Mitsuru Shinagawa, Daisuke Saito, Ken Seo, Kyoji Oohashi:
Analysis of Transient Signal Due to Person Movement in Gate System Using Intra-Body Communication. ICST 2018: 363-366 - [c18]Masashi Ohno, Shokei Numamoto, Mitsuru Shinagawa, Koichiro Tanaka, Hironori Imamura, Kenji Sato, Toshiaki Asahi, Toshiyuki Ono:
Low-frequency Shielding Effectiveness of Multi-layered Device Using Cu and PET Film. TENCON 2018: 342-345 - [c17]Shokei Numamoto, Masashi Ohno, Mitsuru Shinagawa, Koichiro Tanaka, Hironori Imamura, Kenji Sato, Toshiaki Asahi, Toshiyuki Ono:
Millimeter-Wave Roughened Transmission Line Loss Analysis Using Electromagnetic Field Simulation. TENCON 2018: 1106-1109 - [c16]Yutaro Toyoshima, Yoshiki Matsui, Ryota Kato, Kenta Nezu, Mitsuru Shinagawa, Daisuke Saito, Ken Seo, Kyoji Oohashi:
Noise Reduction Method for Intra-Body Communication by Using Compensation Electrode. TENCON 2018: 1733-1736 - 2016
- [c15]Tatsuhiro Akiyama, Miyu Sasaki, Mitsuru Shinagawa, Koichiro Tanaka, Kenji Sato, Toshiaki Asahi:
Shielding effectiveness of multi-layered Cu and PET thin films from electromagnetic interference. I2MTC 2016: 1-6 - 2015
- [j13]Nozomi Haga, Kuniyuki Motojima, Mitsuru Shinagawa, Yuichi Kado
:
A note on signal paths in intrabody communication channels. IEICE Electron. Express 12(12): 20150402 (2015) - [c14]Shin Hasegawa, Yuichi Kado, Ibuki Yokota, Masaki Ishida, Hitoshi Shimasaki, Mitsuru Shinagawa:
Signal Interference Analysis Model In Near-Field Coupling Communication. BODYNETS 2015 - [c13]Yuki Hayashida, Mari Hasegawa, Akito Suzuki, Mitsuru Shinagawa, Yuichi Kado, Nozomi Haga:
Noise Measurement via Human Body for intra-body communication. BODYNETS 2015 - [c12]Daiki Ayuzawa, Yasuaki Takizawa, Sayaka Sugo, Kazuki Matsumoto, Mitsuru Shinagawa:
Measurement system for wearable devices of intra-body communication using electro-optic technique. GCCE 2015: 634-637 - 2014
- [j12]Nozomi Haga, Kuniyuki Motojima, Mitsuru Shinagawa, Yuichi Kado
System of equations describing charges of multiple conductors immersed in electrostatic fields. IEICE Electron. Express 11(19): 20140803 (2014) - [j11]Nozomi Haga, Kuniyuki Motojima, Mitsuru Shinagawa, Yuichi Kado
Received noise voltage of wearable transceiver in the presence of fluorescent lamps using high-frequency electronic ballasts. IEICE Electron. Express 11(21): 20140920 (2014) - [j10]Tadashi Minotani, Mitsuru Shinagawa:
Methods of Estimating Return-Path Capacitance in Electric-Field Intrabody Communication. IEICE Trans. Commun. 97-B(1): 114-121 (2014) - [c11]Yuki Hayashida, Ryo Sugiyama, Yusuke Ido, Akito Suzuki, Yasuaki Takizawa, Mitsuru Shinagawa, Yuichi Kado
Capacitance Model of Embedded Transciever for Intra-body Communication. BODYNETS 2014 - [c10]Masaki Ishida, Tomonori Nakamura, Mami Nozawa, Naoto Watanabe, Yuichi Kado
MHz-band RF signal propagation characteristics on human body for intra-body communication. I2MTC 2014: 797-801 - 2013
- [c9]Ryo Sugiyama, Yuki Hayashida, Jun Katsuyama, Kazuki Matsumoto, Yusuke Ido, Mitsuru Shinagawa, Yuichi Kado
Signal Analysis of Wearable Transmitter for Intra-body Communication. BODYNETS 2013: 449-452 - [c8]Masaki Ishida, Tomonori Nakamura, Mami Nozawa, Naoto Watanabe, Hitoshi Shimasaki, Yuichi Kado
Signal Propagation Characteristics between Transceivers on Human Body for MHz-Band Near-Field Coupling Communication. BODYNETS 2013: 453-456 - [c7]Mami Nozawa, Tomonori Nakamura, Hitoshi Shimasaki, Yuichi Kado
Signal measurement system using electrically isolated probe for MHz-band near-field coupling communication. I2MTC 2013: 37-40 - [c6]Mitsuru Shinagawa, Jun Katsuyama, Kazuki Matsumoto, Shinya Hasegawa, Takashi Yanase, Ryo Sugiyama, Yuichi Kado
Noise analysis for near-field intra-body communication systems. I2MTC 2013: 902-907 - 2012
- [c5]Yuichi Kado
Human-area networking technology based on near-field coupling transceiver. RWS 2012: 119-122 - 2011
- [c4]Hisashi Oguma, Naoki Nobata, Kazunari Nawa, Tsutomu Mizota, Mitsuru Shinagawa:
Passive keyless entry system for long term operation. WOWMOM 2011: 1-3 - 2010
- [j9]Ai-ichiro Sasaki
10-Mbps Short-Range Baseband Wireless Communications via Quasi-Static Electric Fields. IEICE Trans. Commun. 93-B(1): 144-153 (2010) - [j8]Yuichi Kado
AC Electric Field Communication for Human-Area Networking. IEICE Trans. Electron. 93-C(3): 234-243 (2010)
2000 – 2009
- 2009
- [j7]Ai-ichiro Sasaki
Principles and Demonstration of Intrabody Communication With a Sensitive Electrooptic Sensor. IEEE Trans. Instrum. Meas. 58(2): 457-466 (2009) - 2008
- [j6]Ai-ichiro Sasaki
Principle and Application of a Sensitive Handy Electrooptic Probe for Sub-100-MHz Frequency Range Signal Measurements. IEEE Trans. Instrum. Meas. 57(5): 1005-1013 (2008) - 2005
- [c3]Masaaki Fukumoto, Mitsuru Shinagawa:
CarpetLAN: A Novel Indoor Wireless(-like) Networking and Positioning System. UbiComp 2005: 1-18 - 2004
- [j5]Mitsuru Shinagawa, Masaaki Fukumoto, Katsuyuki Ochiai, Hakaru Kyuragi:
A near-field-sensing transceiver for intrabody communication based on the electrooptic effect. IEEE Trans. Instrum. Meas. 53(6): 1533-1538 (2004) - 2001
- [j4]Chisato Hashimoto, Takamitsu Takizawa, Sigeru Nakajima, Mitsuru Shinagawa, Tadao Nagatsuma
Observation of the internal waveforms in high-speed high-density LSIs using an EOS prober. Microelectron. Reliab. 41(8): 1203-1209 (2001) - [j3]Mitsuru Shinagawa, Tadao Nagatsuma
A real-time electro-optic handy probe using a continuous-wave laser. IEEE Trans. Instrum. Meas. 50(5): 1076-1080 (2001)
1990 – 1999
- 1998
- [j2]Mitsuru Shinagawa, Tadao Nagatsuma
Sensitivity improvement of an electro-optic high-impedance probe. IEEE Trans. Instrum. Meas. 47(1): 235-239 (1998) - 1992
- [c2]Mitsuru Shinagawa, Tadao Nagatsuma:
An Automated Optical On-Wager Probing System for Ultra-High-Speed ICs. ITC 1992: 834-839 - 1990
- [c1]Mitsuru Shinagawa, Tadao Nagatsuma:
A picosecond external electro-optic prober using laser diodes. ITC 1990: 1035-1039
1980 – 1989
- 1988
- [j1]Tsutomu Kamoto, Yukio Akazawa, Mitsuru Shinagawa:
An 8-bit 2-ns monolithic DAC. IEEE J. Solid State Circuits 23(1): 142-146 (1988)
Coauthor Index
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