Yokota Shinichi | Precision & Intelligence Lab. Tokyo Institute Of Technology
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概要
関連著者
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Yokota Shinichi
Precision & Intelligence Lab. Tokyo Institute Of Technology
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YOKOTA Shinichi
Precision and Intelligence Laboratory, Tokyo Institute of Technology
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Edamura Kazuya
New Technology Management Co. Ltd.
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Edamura Kazuya
New Technology Management Co. Ltd
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YOSHIDA Kazuhiro
Precision and Intelligence Laboratory, Tokyo Institute of Technology
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Yokota Shinichi
Precision And Intelligence Laboratory Tokyo Institute Of Technology
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Yokota Shinichi
Precision & Intelligence Laboratory Tokyo Institute Of Technology
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Yoshida Kazuhiro
Precision And Intelligence Laboratory Tokyo Institute Of Technology
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Otsubo Yasufumi
Department Of Urban Environment System Chiba University
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KONDOH Yutaka
Precision and Intelligence Laboratory, Tokyo Institute of Technology
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Kondoh Yutaka
Precision And Intelligence Laboratory Tokyo Institute Of Technology
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Park Jung-ho
Precision And Intelligence Laboratory Tokyo Institute Of Technology
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Suzuki K
Niigata Univ. Graduate School Of Medical And Dental Sci. Niigata Jpn
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Suzuki Kenji
Graduate Student Tokyo Institute Of Technology
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Yokota S
Tokyo Inst. Technol. Yokohama Jpn
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Yokota Shinichi
R & I Lab. Tokyo Institute Of Technology
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Yokota Shinichi
Precision And Intelligence Lab. Tokyo Institute Of Technology
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Yoshida K
Precision And Intelligence Laboratory Tokyo Institute Of Technology
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Kim D‐t
Kyungpook Sanup Univ. Taegu Kor
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Komatsu Takehiro
Graduate student, Tokyo Institute of Technology
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Kim Do-Tae
Kyungpook Sanup University
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AKUTU Kotarou
Precision and Intelligence Laboratory, Tokyo Institute of Technology
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KIM Do-Tae
Precision and Intelligence Laboratory, Tokyo Institute of Technology
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NAKANO Kazuo
Precision and Intelligence Laboratory, Tokyo Institute of Technology
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SOMADA Hisashi
Precision & Intelligence Lab., Tokyo Institute of Technology
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YAMAGUCHI Hirotugu
Nissan Motor Co., Ltd.
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Komatsu Takehiro
Graduate Student Tokyo Institute Of Technology
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YAJIMA Fumiya
Precision & Intelligence Laboratory, Tokyo Institute of Technology
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TAKEMURA Kenjiro
Faculty of Science and Engineering, Keio University
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Ahn Kyoungkwan
School Of Mechanical And Automotive Engineering University Of Ulsan
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Yajima Fumiya
Precision & Intelligence Laboratory Tokyo Institute Of Technology
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Takahashi Ken
Graduate School of engineering, TokaiUniversity
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ISHIHARA Kokichi
Graduate School, Tokyo Institute of Technology
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SADAMOTO Atsushi
Graduate School, Tokyo Institute of Technology, Japan
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OTSUBO Yasufumi
Engineering Faculty, Chiba University
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Takemura Kenjiro
Faculty Of Science And Engineering Keio University
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Sadamoto Atsushi
Graduate School Tokyo Institute Of Technology Japan
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Ishihara Kokichi
Graduate School Tokyo Institute Of Technology
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Yamaguchi Hirotugu
Nissan Motor Co. Ltd.
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Nakano Kazuo
Precision And Intelligence Laboratory Tokyo Institute Of Technology
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Akutu Kotarou
Precision And Intelligence Laboratory Tokyo Institute Of Technology
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Takahashi Ken
Graduate School Tokyo Institute Of Technology
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Takahashi Ken
Graduate School Of Engineering Tokaiuniversity
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Suzuki Kenji
Division Of Gastroenterology And Hepatology Department Of Cellular Function And Niigata University G
著作論文
- A Piezoelectric Micropump Using Resonance Drive with High Power Density
- Application of Discrete Event Control to the Insertion Task of Electric Line Using 6-Link Electro-Hydraulic Manipulators with Dual Arm
- Flexible Hydraulic Actuator for Space Manipulators
- An Approach to Extending the Potential of the Remote Measurement Method for Unsteady Flow Rate Using Hydraulic Pipeline Dynamics : Interpolation Method and Extrapolation Method
- A Fast-Acting Electro-Hydraulic Digital Transducer : A Poppet-Type On-Off Valve using a Multilayered Piezoelectric Device
- An Unsteady Flow Rate Measurement Method Utilizing Dynamic Characteristics between Pressure and Flow Rate along a Pipeline : A Method Using Pressures at Two Separated Points
- Study on an Active Accumulator : Active Control of High-Frequency Pulsation of Flow Rate in Hydraulic Systems
- Electro-Conjugate Fluid Jet-Driven Micro Artificial Antagonistic Muscle Actuators and their Integration
- A Fluid Control Valve Based on the Viscosity Increase Effects of Dielectric Fluids Caused by Electrodes Planted with Hair-Like Short Fibers : Proposition of a Fiber Planted ER Valve
- A Micro Motor Using Electroconjugate Fluids (ECFs) : Proposition of Stator Electrode Type (SE-type) Micro ECF Motors
- An In-Pipe Mobile Micromachine Using Fluid Power : A Mechanism Adaptable to Pipe Diameters