Umezaki Eisaku | Nippon Inst. Technol. Saitama Jpn
スポンサーリンク
概要
関連著者
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Umezaki Eisaku
Nippon Inst. Technol. Saitama Jpn
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Pinit Pichet
King Mongkut's Univ. Technol. Thonburi Bangkok Tha
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Umezaki Eisaku
Department Of Mechanical Engineering Nippon Institute Of Technology
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Nomura Yudai
Nippon Institute Of Technology
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Umezaki Eisaku
Department Of Mechanical Engineering Nippon Inst. Of Tech.
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Umezaki Eisaku
Nippon Institute Of Technology
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PINIT Pichet
King Mongkut's University of Technology Thonburi
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Umezaki Eisaku
Department of Mechanical Engineering, Nippon Institute of Technology
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Umezaki E
Nippon Institute Of Technology
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Nomura Yudai
Sanden Co. Gunma Jpn
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Tamaki Tamotsu
Department Of Mechanical Engineering Nippon Institute Of Technology
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Pinit Pichet
Nippon Inst. Technol. Saitama Jpn
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Pinit P
Nippon Institute Of Technology
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Pinit Pichet
King Mongkut's University Of Technology Thonburi
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PINIT Pichet
Department of Mechanical Engineering, Nippon Institute of Technology
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TAMAKI Tamotsu
Nippon Institute of Technology
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TAKAHASHI Susumu
Kanto Gakuin University
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FUTASE Katsunori
Yushin Co. Ltd.
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Takahashi S
Kanto Gakuin Univ. Yokohama Jpn
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HOSHI Taiki
Nippon Institute of Technology
著作論文
- Extraction of Singularities in Isoclinic Phase Map for Isoclinic Phase Unwrapping in Digital Photoelasticity
- Full-Field Automated Determination of Isoclinic Angles by Four-Step Color Phase Shifting
- Digital Simulation of a Circular Ring Loaded by a Diametric Compression for Photoelastic Analysis
- Full-Field Determination of Principal-Stress Directions Using Photoelasticity with Plane-Polarized RGB Lights
- Unwrapping of Isochromatic Fringe Orders Using Fringe Gradient Method
- Image Analysis of Photoelastic Fringes : 1st Report, A Method for Determination of Fringe Orders and Directions of Principal Stresses in the Whole Region of a 2-dimensional Model by Image Processing
- Observation of Behavior of Microorganism in Microchannels That Simulate Pouring Lip for Containers of Liquid Food Products
- Full-Field Isoclinic Evaluation in Digital Phase-Shifting Photoelasticity Applied to C-Shaped Model