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Disambiguation of "Shinagawa, Mitsuru"

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Low-frequency Shielding Effectiveness of Multi-layered Device Using Cu and PET Film.

, , , , , , , and . TENCON, page 342-345. IEEE, (2018)

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Other publications of authors with the same name

Human-area networking technology based on near-field coupling transceiver., , , , , , , , , and . RWS, page 119-122. IEEE, (2012)Received noise voltage of wearable transceiver in the presence of fluorescent lamps using high-frequency electronic ballasts., , , and . IEICE Electronic Express, 11 (21): 20140920 (2014)A near-field-sensing transceiver for intrabody communication based on the electrooptic effect., , , and . IEEE Trans. Instrumentation and Measurement, 53 (6): 1533-1538 (2004)Low-frequency Shielding Effectiveness of Multi-layered Device Using Cu and PET Film., , , , , , , and . TENCON, page 342-345. IEEE, (2018)Noise analysis for near-field intra-body communication systems., , , , , , and . I2MTC, page 902-907. IEEE, (2013)System of equations describing charges of multiple conductors immersed in electrostatic fields., , , and . IEICE Electronic Express, 11 (19): 20140803 (2014)Signal Propagation Characteristics between Transceivers on Human Body for MHz-Band Near-Field Coupling Communication., , , , , , and . BODYNETS, page 453-456. ICST, (2013)Signal Analysis of Wearable Transmitter for Intra-body Communication., , , , , , and . BODYNETS, page 449-452. ICST, (2013)Capacitance Model of Embedded Transciever for Intra-body Communication., , , , , , , and . BODYNETS, ICST, (2014)Principles and Demonstration of Intrabody Communication With a Sensitive Electrooptic Sensor., , and . IEEE Trans. Instrumentation and Measurement, 58 (2): 457-466 (2009)