Grant-in-Aid for Scientific Research.
Japan Society for the Promotion of Science. (JSPS)
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[1] |
Small planar active antennas for space
communication, Incentive Research (A), 1990.
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[2] |
Antennas mounted on a vehicle for snowy
environment, Incentive Research (A), 1991.
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[3] |
Analysis of microstrip antennas on ferrite substrate, Incentive
Research (A), 1994.
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[4] |
Development of antenna system mounted on a vehicle
for ITS, Scientific Research (C), No. 17560326, 2005-2007.
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[5] |
System development for preventing car crash using the
new frequency band, Scientific Research (C), No. 20560344,
2008-2010.
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[6] |
Vehicle navigation systems using RF-ID for blizzard condition ,
Scientific Research (C), Project Leader, Prof. Kawamura, No. 21510174,
2009-2011.
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[7] |
Direction of arrival estimation using the metaheuristics,
Scientific Research (C), Project Leader, Prof. Ohshima, No. 22560400, 2010-2012.
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[8] |
Development of car crash avoidance system using UHF band by ITS technology,
Scientific Research (C), No. 23560433, 2011-2013.
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[9] |
Interactive navigation systems using RF-ID for blizzard condition,
Scientific Research (C), Project Leader, Prof. Kawamura, No. 24510221,
2012-2014.
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[10] |
Development of car crash avoidance system at intersections using 760 MHz band,
Scientific Research (C), No. 26420335, 2014-2016.
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[11] |
Informatization of traffic lane and navigation systems for blizzard condition using UHF band RF-ID,
Scientific Research (C), Project Leader, Prof. Kawamura, No. 15K01222, 2015-2017.
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[12] |
International standardization of safety evaluation for millimeter wave exposure using large-scale accurate computation,
Scientific Research (C), No. 17K06288, 2017-2019.
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[13] |
International standardization of safety evaluation for intermediate frequencies using three-dimensional electromagnetic field analysis,
Scientific Research (C), Project Leader, Prof. Taguchi, No. 18K04077, 2018-2020.
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[14] |
Vehicle navigation system to avoid snowdrift in blizzard condition,
Scientific Research (C), Project Leader, Prof. Kawamura, No. 18K04630, 2018-2020.
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[15] |
Development of high performance millimeter-wave devices for 5th generation mobile communication systems using metaheuristic optimization method,
Scientific Research (C), No. 22K04234, 2022-2024.
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Research Collaboration
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[1] |
Design of antennas mounted on a vehicle using the supercomputer, Honda R&D Co., Ltd., 2002-2007.
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[2] |
Development of metamaterial design CAE, Toyota Central R&D Labs., Inc., 2004-2005.
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[3] |
Electromagnetic field simulation of antennas mounted on a vehicle using the supercomputer, Honda R&D Co., Ltd., 2005-2006.
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[4] |
Large-scale electromagnetic field simulation of measurement environment for antennas mounted on a vehicle using the supercomputer, Honda R&D Co., Ltd., 2007-2008.
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[5] |
Large-scale electromagnetic field simulation, Honda R&D Co., Ltd., 2009-2010.
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[6] |
Efficient and effective microwave heating system with controlled polarized-waves and readiness for changes in material characteristics, Project Leader, Prof. Toshihide Kitazawa, and Prof. Tatsuya kashiwa, JAEA (Japan Atomic Energy Agency), 2010-2012.
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[8] |
Electromagnetic analysis of reflection and apsorption in radiowave measurement environment, E&C engineering Co., Ltd., 2013.
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[9] |
Development of the large-scale electromagnetic analysis system using FDTD method running on a dedicated EWS, Honda R&D Co., Ltd., 2013-2014.
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[10] |
Electromagnetic and heat-transfer analyses for microwave, JAEA (Japan Atomic Energy Agency), 2013.
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[11] |
Electromagnetic analysis of reflection and absorption in radiowave measurement environment, E&C engineering Co., Ltd., 2014.
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[12] |
Arrival wave characteristics using the MUSIC algorithm in urban area, Honda R&D Co., Ltd., 2015-2016.
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[13] |
Development and application of heatstroke risk assessment simulator (Joint Usage / Research Center for Interdisciplinary Large-scale Information Infrastructures Public Offering Joint Study), Project Leader, Prof. Akimasa Hirata, Nagoya Institute of Technology, 2017-2019.
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