Wang Jianqing | Nagoya Inst. Of Technol. Nagoya Jpn
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概要
関連著者
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Wang Jianqing
Nagoya Inst. Of Technol. Nagoya Jpn
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Fujiwara Osamu
Nagoya Institute of Technology
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Wang Jianqing
Nagoya Institute Of Technology
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Wang J
名古屋工大
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JOUKOU Takahiro
Nagoya Institute of Technology
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Fujiwara O
Nagoya Inst. Of Technol. Nagoya Jpn
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Fujiwara Osamu
The Department Of Electrical And Computer Engineering Nagoya Institute Of Technology
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Fujiwara Osamu
The Department Of Electrical And Computer Engineering Of Nagoya Institute Of Technology
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Fujiwara Osamu
The Faculty Of Engineering Nagoya Institute Of Technology
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AOYAMA Sho
Nagoya Institute of Technology
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ANZAI Daisuke
Nagoya Institute of Technology
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WATANABE Soichi
National Institute of Information and Communications Technology
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Uda Tatsuhiko
National Institute For Fusion Science
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WAKE Kanako
National Institute of Information and Communications Technology
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Wang Jianquing
Nagoya Inst. Of Technol. Nagoya Jpn
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Samir Al
Nagoya Institute Of Technology
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Tanaka Masahiro
National Institute For Fusion Science
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Liao Wei
Nagoya Institute Of Technology
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Wang Jianquig
Nagoya Institute of Technology
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Wang Jianquing
Nagoya Institute of Technology
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DEJI Shizuhiko
Gifu University of Medical Science
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WANG Jianqing
Nagoya Institute Technology
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ANZAI Daisuke
Nagoya Institute Technology
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AOYAMA Sho
Nagoya Institute Technology
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YAMANAKA Masafumi
Nagoya Institute Technology
著作論文
- Uncertainty of the One-Gram Averaged Spatial Peak SAR in Human Head for Portable Telephones due to Average Procedures
- Localized Specific Absorption Rate in the Human Head in Metal-Framed Spectacles for 1.5 GHz hand-Held Mobile Telephones
- A Practical Approach for Estimation of Load Effect Produced by Ferrite Core Attached to Wire above a Ground Plane (特集 〔平成10年度〕電気関係学会東海支部連合大会)
- B-4-40 Statistical Determination of Exposure Levels in a Multiple-Frequency Whole-Body Exposure System
- Impact of Spatial Diversity Reception on SAR Reduction in Implant Body Area Networks
- Electromagnetic Fields Measurement and Safety Consideration in Magnetic Confinement Fusion Test Facilities
- Performance Evaluation on RSSI-Based Localization for Capsule Endoscopy Systems with 400 MHz MICS Band Signals