Okujima Motoyoshi | Laboratory Of Precision Machinery And Electronics Tokyo Institute Of Technology
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概要
関連著者
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Okujima Motoyoshi
Laboratory Of Precision Machinery And Electronics Tokyo Institute Of Technology
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Okujima Motoyoshi
Toin Human Science And Technology Center (hustec) Department Of Control And System Engineering Facul
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スタント カワン
桐蔭横浜大学工学部・工・医用工学科・先端医用工学センター(bme Center)桐蔭人間科学工学センター(hustec)
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スタント カワン
桐蔭横浜大学・工・医用工学科 先端医用工学センター(bme Center)桐蔭人間科学工学センター(hustec)
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Soetanto K
Toin Univ. Yokohama Yokohama Jpn
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Soetanto Kawan
Biomedical Engineering & Science Institute Drexel University
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スタント カワン
桐蔭横浜大学工学部、桐蔭人間科学工学センター(hustec)
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Ohtsuki S
Tokyo Institute Of Technology
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Ohtsuki Shigeo
Institute Of Medical Ultrasound Technology
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スタント カワン
桐蔭横浜大学・工学部 先端医用工学センター(bme Center)
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Soetanto Kawan
Toin Human Science And Technology Center (hustec) Department Of Control And System Engineering Facul
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Ohtsuki Shigeo
Research Laboratory Of Precision Machinery And Electronics Tokyo Institute Of Technology
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Okujima Motoyoshi
Research Laboratory Of Precision Machinery And Electronics
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HACHIYA Hiroyuki
Research Center for Frontier Medical Engineering, Chiba University
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Soetanto Kawan
Department Of Control And System Engineering Faculty Of Engineering Toin University Of Yokohama Toin
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Chan M
Hong Kong Univ. Sci. & Technol. Hkg
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Tanaka Motonao
Research Institute For Chest Diseases And Cancer Tohoko University
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Okujima Motoyoshi
Department Of Control And System Engineering Faculty Of Engineering Toin University Of Yokohama Toin
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Soetanto Kawan
Toin Human Science And Technology Center (hustec) Center For Advanced Research Of Biomedical Enginee
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Soetanto Kawan
Department Of Biomedical Engineering Of Toin University Of Yokohama
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Takeuchi S
Faculty Of Engineering Toin University Of Yokohama
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Soetanto Kawan
Department of Biomedical Engineering, Toin University of Yokohama, Center of Advanced Research for B
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Chan Man
Department Of Control And System Engineering Faculty Of Engineering Toin University Of Yokohama Toin
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SOETANTO Kawan
Toin University of Yokohama, Department of Biomedical Engineering
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OKUJIMA Motoyoshi
Research Laboratory of Precision Machinery and Electronics, Tokyo Institute of Technology
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OHTSUKI Shigeo
Research Laboratory of Precision Machinery and Electronics, Tokyo Institute of Technology
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TANAKA Motonao
Res. Inst. for Chest Diseases and Cancer, Tohoku University
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OHTSUKI Shigeo
Res. Lab. of Precision Machinery and Electronics, Tokyo Institute of Technology
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OKUJIMA Motoyoshi
Res. Lab. of Precision Machinery and Electronics, Tokyo Institute of Technology
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SOETANTO Kawan
Research Laboratory of Precision Machinery and Electornics, Tokyo Institute of Technology
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TANAKA Motonao
Reseach Institute of Chest Deseases and Cancer, Tohoku University
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OKUJIMA Motoyoshi
Department of Control and System Engineering, Faculty of Engineering, Toin, University of Yokohama,
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CHAN Man
Toin Human Science and Technology Center (HUSTEC), Department of Control and System Engineering, Fac
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OKUJIMA Motoyoshi
Toin Human Science and Technology Center (HUSTEC), Department of Control and System Engineering, Fac
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竹内 真一
桐蔭横浜大学・工学部・医用工学科
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MOTOOKA Seiichi
Department of Electronics, Chiba Institute of Technology
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Liu Mario
Department Of Materials Science And Engineering Kanazawa University
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Motooka S
Department Of Electrical Electronics And Computer Engineering. Faculty Of Engineering Chiba Institut
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Motooka Seiichi
Department Of Electronics
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LIU Maokai
Department of Electrical Engineering, Harbin Institute of Technology
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Motooka Seiichi
Department of Electrical, Electronics and Computer Engineering, Chiba Institute of Technology, 2-17-1 Tsudanuma, Narashino, Chiba 275-0016, Japan
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TAKEUCHI Shinichi
Department of Biomedical engineering, Toin University of Yokohama, Center for Advanced Research of B
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SOETANTO Kawan
Res. Inst. for Chest Diseases and Cancer, Tohoku University
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Takeuchi Shinichi
Toin Univ. Yokohama Yokohama Jpn
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SHIINO Masato
Department of Electronics, Chiba Institute of Technology
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Shiino Masato
Department Of Electronics Chiba Institute Of Technology
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Takeuchi Shinichi
Toin Human Science And Technology Center (hustec) Center For Advanced Research Of Biomedical Enginee
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スタント カワン
Toin Univ. Yokohama Yokohama Jpn
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竹内 真一
Toin Human Science and Technology Center (HUSTEC), Department of Control and System Engineering, Faculty of Engineering, Tion University of Yokohama
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奥島 基良
Toin Human Science and Technology Center (HUSTEC), Department of Control and System Engineering, Faculty of Engineering, Tion University of Yokohama
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Takeuchi Shinichi
Department of Biomedical Engineering, Faculty of Engineering, Toin University of Yokohama, Yokohama 225-8502, Japan
著作論文
- Relationship between the Harmonic Components and Illuminating Frequency for the Microbubbles : Experimental and Numerical Consideration
- Measurement of Frequency Characteristics of Ultrasound Attenuation (FCA) of Phantoms by T-R Technique : Medical Ultrasonics
- Transmission-Reflection Technique for Measurement of Frequency Characteristics of Ultrasound Attenuation Constant : Medical Ultrasonics and Ultrasonic Measurements
- Evaluation of Ultrasonic Attenuastion of Scattering Medium with Its Tomogram : Acoustical Measurements and Instrumentation
- An In Vivo Technique for Estimation of Size and Relative Sound Velocity of Breast Tumor using Distorted Image in Ultrasonic Tomogram : Acoustical Measurements and Instrumentation
- Simulations of Contrast Effects from Free Microbubbles in Relation to Their Size, Concentration and Acoustic Properties
- Change in Size and Number of Sodium Laurate Microbubbles with Time in Saline at Different Air Concentrations
- Effect of Calcium Chloride on Sodium Alginate Microbubbles as Ultrasound Contrast Agent
- Acoustic Properties of Surfactant Microbubbles in Relation to their Lifetime In Vitro as Determined by Diffusion
- Measurement of Vorticity Distribution Using Four Sets of Measuring Apparatus : Acoustical Measurements and Instrumentation
- Vorticity Measuring Apparatus using Reciprocal Ultrasonic Transmission Method : Acoustical Measurements and Instrumentation
- 超音波パルス照射による単純気泡非線形応答の数値計算による研究
- A Low Frequency Underwater Sound Source with an Acoustic Reel Shape Resonator : Ultrasonic Propagation and Field
- An Omnidirectional Transducer Design Attached with High Sound-Speed Material for Use in Deep Seas : Ultrasonic Transduction
- A method of deducing flow vactor from Doppler information
- A Measuring Technique for Sand Ripples Using Ultrasonic Transducer Array : Acoustical Measurements and Instrumentation
- An Estimation Method of Vertical Sound Speed Profile in Mid-Deep Water Using Multipath Propagation : Medical Ultrasonics and Ultrasonic Measurements
- Calculation of Directivity Pattern of a Cylindrical Shell Transducer with Syntactic Foam : Ultrasonic Transduction