OTANI Takahiko | Doshisha Univ.
スポンサーリンク
概要
関連著者
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OTANI Takahiko
Doshisha Univ.
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Mano Isao
Oyo Electric Co. Ltd.
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Takada Masahiko
Shiga Univ. Medical Sci. Otsu Jpn
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Teshima Ryota
Tottori Univ. Fac. Medicine Tottori Jpn
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Tsujimoto Toshiyuki
Horiba Ltd.
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長谷 芳樹
神戸市立工業高等専門学校
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Matsukawa Mami
Doshisha Univ.
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Nagatani Yoshiki
Kobe City College of Technology
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長谷 芳樹
神戸高専電子工学科
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Nagatani Yoshiki
Doshisha Univ.
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Teshima Ryota
Tottori Univ. Fac. Of Medicine Tottori Jpn
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IMAIZUMI Hirotaka
Doshisha Univ.
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FUKUDA Takashi
Doshisha Univ.
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WATANABE Yoshiaki
Doshisha Univ.
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Imaizumi Hirotaka
Faculty Of Engineering Doshisha University
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Hagino Hiroshi
Tottori University Faculty Of Medicine
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Mano Isao
OYO Electric co., ltd.
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Yamamoto Tadahito
Tottori University Faculty of Medicine
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Tsujimoto Toshiyuki
Horiba, Ltd.
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Otani Takahiko
Doshisha University Faculty Of Engineering
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Takai Shinro
Teikyo Univ. Faculty Of Medicine
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Horii Kaoru
Oyo Electric Co. Ltd.
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Suzaki Takuji
Horiba Ltd.
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Nagaoka Hiroki
Horiba Ltd.
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Hagino Hiroshi
Oyo Electric Co., Ltd., Joyo, Kyoto 610-0101, Japan
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Yamamoto Tadahito
Oyo Electric Co., Ltd., Joyo, Kyoto 610-0101, Japan
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Otani Takahiko
Doshisha University, Faculty of Engineering, 1-3 Tatara-Miyakodani, Kyotanabe, Kyoto 610-0321, Japan
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Otani Takahiko
Doshisha University, Faculty of Engineering, Kyotanabe, Kyoto 610-0321, Japan
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Mano Isao
Oyo Electric Co., Ltd., 63-1 Nakamichiomote, Hirakawa, Joyo, Kyoto 610-0101, Japan
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Takada Masahiko
Shiga University of Medical Science, Otsu 520-2192, Japan
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Tsujimoto Toshiyuki
HORIBA, Ltd., Kyoto 601-8510, Japan
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Teshima Ryota
Tottori University, Faculty of Medicine, Yonago, Tottori 683-0826, Japan
著作論文
- G-1 Applicability of FDTD method on the wave propagation in the cancellous bone(Medical ultrasound, Underwater ultrasound)
- G-4 Ultrasonic transmission characteristics of in vitro human cancellous bone(Medical ultrasound (English session))
- Development of Novel Ultrasonic Bone Densitometry Using Acoustic Parameters of Cancellous Bone for Fast and Slow Waves
- Ultrasonic Transmission Characteristics of In vitro Human Cancellous Bone