Yoshizawa Masasumi | Tokyo Metropol. Coll. Of Industrial Tech.
スポンサーリンク
概要
関連著者
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Yoshizawa Masasumi
Tokyo Metropol. Coll. Of Industrial Tech.
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Moriya Tadashi
Department Of Electrical Engineering Tokyo Metropolitan University
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Moriya Tadashi
Tokyo Metropolitan Univ.
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Itoh Kouichi
Hitachi-omiya Saiseikai Hospital
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YOSHIZAWA Masasumi
Tokyo Metropolitan Technical College
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Moriya T
Graduate School Of Engineering Tokyo Metropolitan University
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Yoshizawa M
Tokyo Metropolitan Technical College
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Irie Takasuke
Microsonic Co. Ltd.
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Moriya Tadashi
(emeritus) Department of Electrical Engineering, Tokyo Metropolitan University, 1-1 Minami-Osawa, Hachioji, Tokyo 192-0397, Japan
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YAGI Shuhei
Department of Physical Electronics, Tokyo Institute of Technology
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Tagawa N
Tokyo Metropolitan Univ. Tokyo Jpn
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Tagawa Norio
Department Of Electrical Engineering Tokyo Metropolitan University
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Yagi S
Department Of Physical Electronics Tokyo Institute Of Technology
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Tagawa Norio
Tokyo Metropolitan Univ.
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Yagi Syuhei
Department Of Physical Electronics Tokyo Institute Of Technology
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Moriya T
Institute Of Material Science University Of Tsukuba
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HATAKEYAMA Rokuro
Department of Electrical Engineering, Tokyo Metropolitan University
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MORIYA Tadashi
Department of Electrical Engineering, Tokyo Metropolitan University
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HATAKEYAMA Rokuro
Tokyo Metropolitan University, Graduate School of Engineering
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Hatakeyama Rokuro
Department Of Electrical Engineering Tokyo Metropolitan University
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Moriya Tsuyoshi
Institute Of Material Science University Of Tsukuba
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Moriya T
Tokyo Metropolitan University Graduate School Of Engineering
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YAGI Shin-ichi
Meisei Univerity Graduate School of Information Science
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TOYAMA Masaharu
Toshiba Research and Development Center
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Tagawa Norio
Depart. Of Mechanical Engineering High Technology Research Center Kansai University
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Yagi S
Meisei Univ. Tokyo Jpn
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Nakamura Yuuta
Tokyo Metropol. Coll. Of Industrial Tech.
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Ishiguro Masataka
Tokyo Metropol. Coll. Of Industrial Tech.
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Irie Takasuke
Graduate School Of System Design Tokyo Metropolitan University
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Hatakeyama Rokuro
Tokyo Metropolitan University Graduate School of Engineering, Tokyo 192-0397, Japan
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YAGI Shin-ichi
Department of Electronics and Computer Science, Meisei University
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Moriya Tadashi
Dept. Of Electrical Eng. Tokyo Metropol. Univ.
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Yoshizawa Masasumi
Tokyo Metropolitan College Of Technology
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OSHIZAWA Masasumi
Tokyo Metropolitan College of Technology
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WATANABE Eiki
Department of Electrical Engineering, Tokyo Metropolitan University
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Watanabe Eiki
Department Of Electrical Engineering Tokyo Metropolitan University
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Watanabe Eiki
Department Of Applied Chemistry Faculty Of Engineering Oita University
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Fujii Yasutomo
Department Of Clinical Laboratory Medicine Jichi Medical University
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Yagi Shin-ichi
Department Of Electrical & Electronics Engineering College Of Science & Technology Sophia Un
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KIRYU Syogo
Department of Electrical Engineering, Tokyo Metropolitan University
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FUSE Tadashi
Department of Electrical Engineering, Tokyo Metropolitan University
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Kiryu Syogo
Department Of Electrical Engineering Tokyo Metropolitan University
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Fuse Tadashi
Department Of Electrical Engineering Tokyo Metropolitan University
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Fuse Tadashi
Department Of Electrical Engineering Faculty Of Engineering Shonan Institute Of Technology
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Taniguchi Nobuyuki
Department Of Clinical Laboratory Medicine Jichi Medical University School Of Medicine
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Taniguchi Nobuyuki
Department Of Clinical Laboratory Jichi Medical University
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Fujii Yasutomo
Department Of Clinical Laboratory Medicine Jichi Medical University School Of Medicine
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Haruyama Naoto
Tokyo Metropolitan College Of Industrial Technology
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EMOTO Ryuji
Tokyo Metropolitan College of Industrial Technology
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IRIE Takasuke
Microsonic Co., Ltd.
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Irie Takasuke
Graduate School of System Design, Tokyo Metropolitan University, Hino, Tokyo 191-0065, Japan
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Irie Takasuke
Microsonic Co., Ltd., 3-9-11 Hongo, Bunkyo-ku, Tokyo 113-0033, Japan
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Emoto Ryuuji
Tokyo Metropolitan College of Industrial Technology, 8-17-1 Minamisenjyu, Arakawa, Tokyo 116-0003, Japan
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Moriya Tadashi
Department of Electrical Engineering, Tokyo Metropolitan University, 1-1 Minami-Ohsawa, Hachioji, Tokyo 192-0397, Japan
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Moriya Tadashi
(Emeritus) Department of Electrical Engineering, Tokyo Metropolitan University, Hachioji, Tokyo 192-0397, Japan
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Moriya Tadashi
Department of Electrical Engineering, Tokyo Metropolitan University, 1-1 Minamioosawa, Hachioji, Tokyo 192-0397, Japan
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Komiya Yuuichirou
Tokyo Metropolitan College of Industrial Technology, 1-10-40 Higashiohi, Shinagawa-ku, Tokyo 140-0011, Japan
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Itoh Kouichi
Hitachi-Omiya Saiseikai Hospital, 3033-3 Tagouchi-cho, Hitachiomiya, Ibaraki 319-2256, Japan
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Yoshizawa Masasumi
Tokyo Metropolitan College of Industrial Technology, Arakawa, Tokyo 116-0003, Japan
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Yoshizawa Masasumi
Tokyo Metropolitan College of Industrial Technology, 8-17-1 Minamisenjyu, Arakawa-ku, Tokyo 116-0003, Japan
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Kawabata Hirotaka
Tokyo Metropolitan College of Industrial Technology, 8-17-1 Minamisenjyu, Arakawa, Tokyo 116-0003, Japan
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Nakamura Yuuta
Tokyo Metropolitan College of Technology, 1-10-40 Higashiohi, Shinagawa-ku, Tokyo 140-0011, Japan
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TANIGUCHI NOBUYUKI
Department of Chemical Engineering, Tokyo University of Agriculture and Technology
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Yagi Shin-ichi
Meisei University Graduate School of Information Science, Tokyo 191-8506, Japan
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Moriya Tadashi
Tokyo Metropolitan University Graduate School of Engineering, Tokyo 192-0397, Japan
著作論文
- Measurement of Speed of Sound in Skull Bone and Its Thickness Using a Focused Ultrasonic Wave
- Development of a New System for Measuring Skull Bone Thickness by the Pulse compression Method
- High Signal-to-Noise Ratio Ultrasonic Point Detection Method using a Fused Quartz Rod as a Pulse Compression Filter and a Sensor
- A Method for Suppressing the Unwanted Signal Due to the L(0,2) Mode in an L(0,3) Mode Pulse Compression Filter by Means of a Tapered Cylindrical Fused Quartz Rod : Ultrasonic Transduction
- Measurement of Acoustic Impedance of Capsuled Tissue Sample by Interference Method using Fused Quartz Rod as a Transmission Line (国際セッションIS-EMD2002〔英文〕)
- P2-46 Attenuation Compensation of Soft Tissue for Acoustic Impedance Measurement of In Vivo Bone by Transducer Vibration Method(Poster session 2)
- Development of Scanning Method for Puncture Needle-Type Ultrasonography
- Processed skin surface images acquired by acoustic impedance difference imaging using the ultrasonic interference method : a pilot study
- Imaging Method for Acoustic Impedance Difference for Puncture Needle-Type Ultrasonography using a Thin Rod with Focusing End Face
- Transducer Vibration Method for Interference-Based Reflection-Type In Vivo Measurement for Acoustic Impedance of Bone
- Attenuation Compensation of Ultrasonic Wave in Soft Tissue for Acoustic Impedance Measurement of In vivo Bone by Transducer Vibration Method
- Development of Robust Sensing System for Puncture Needle-Type Ultrasonography
- Development of a New System for Measuring Skull Bone Thickness by the Pulse Compression Method