Takeuchi Norio | Asahikawa Medical College
スポンサーリンク
概要
関連著者
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Takeuchi Norio
Communication Equipment Works Mitsubishi Electric Corporation
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Takeuchi Norio
Asahikawa Medical College
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NII Masatoshi
Communication Equipment Works, Mitsubishi Electric Corporation
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TSUKAHARA Yoshihiro
Kitaitami Works, Mitsubishi Electric Corporation
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ITOH Yasushi
Information Technology R&D Center, Mitsubishi Electric Corporation
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Itoh Y
Shonan Inst. Of Technol. Fujisawa‐shi Jpn
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Nii Masatoshi
Communication Equipment Works Mitsubishi Electric Corporation
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Tsukahara Yoshihiro
Kitaitami Works Mitsubishi Electric Corporation
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Itoh Yasushi
Information Technology R&D Center, Mitsubishi Electric Corporation
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Hirayama H
Asahikawa Medical Coll. Asahikawa‐shi Jpn
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Fukuyama Y
Asahikawa Medical Coll. Asahikawa City Jpn
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UCHIDA Hiromitsu
Information Technology R&D Center, Mitsubishi Electric Corporation
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MIYAZAKI Moriyasu
Information Technology R&D Center, Mitsubishi Electric Corporation
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TSUKAHARA Yoshihiro
Optoelectronic and Microwave Devices Laboratory, Mitsubishi Electric Corporation
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KUREBAYASHI Hidetoshi
Planning and Administration Department, Mitsubishi Electric Corporation
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Hirayama Hirohumi
the Department of Public Health Asahikawa Medical College
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Fukuyama Yuzo
Asahikawa Medical College
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Miyazaki Moriyasu
Information Technology R&d Center Mitsubishi Electric Corp.
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Miyazaki Moriyasu
Information Technology R&d Center Mitsubishi Electric Corporation
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Hirayama Hirohumi
The Department Of Electrical And Electronical Engineering Ohita Univ.
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Uchida Hiromitsu
Information Technology R&d Center Mitsubishi Electric Corporation
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Kurebayashi H
Planning And Administration Department Mitsubishi Electric Corporation
著作論文
- A Compact Wideband T/R Switching Circuit Utilizing Quadrature Couplers and Gate-and-Drain-Driven HPAs(Special Issue on Low-Distortion, High-Power, High-Efficiency Active Device and Circuit Technology)
- MMIC/Super-MIC/MIC-Combined C- to Ku-Band 2 W Balanced Amplifier Multi-Chip Module (Special Issue on Microwave and Millimeterwave High-power Devices)
- AN APPLICATION OF OPTIMAL CONTROL THEORY FOR HEMODYNAMICAL CHANGES IN CARDIOVASCULAR SYSTEM EVOKED BY ALTERING AFTERLOAD IMPEDANCE