OHYAMA Nagaaki | Tokyo Institute of Technology, Frontier Collaborative Research Center
スポンサーリンク
概要
関連著者
-
YAMAGUCHI Masahiro
Tokyo Institute of Technology, Imaging Science & Engineering Laboratory
-
OHYAMA Nagaaki
Tokyo Institute of Technology, Frontier Collaborative Research Center
-
Ohyama N
Tokyo Inst. Technol. Kanagawa Jpn
-
Ohyama Nagaaki
Image Science And Engineering Laboratory Tokyo Institute Of Technology
-
Yamaguchi Masahiro
Imaging Science And Engineering Laboratory Tokyo Institute Of Technology
-
Ohyama N
Tokyo Ins. Tech. Yokohama Jpn
-
Yamaguchi Masahiro
Tokyo Institute Of Technology Imaging Science & Engineering Laboratory
-
Ohyama Nagaaki
Tokyo Institute Of Technology Frontier Collaborative Research Center
-
OHYAMA Nagaaki
Tokyo Institute of Technology
-
OBI Takashi
Tokyo Institute of Technology
-
Yamaguchi M
Imaging Science And Engineering Laboratory Tokyo Institute Of Technology
-
Bautista Pinky
Tokyo Institute Of Technology Imaging Science & Engineering Laboratory
-
ウグルル ユジェル
東京工業大学像情報工学施設
-
ABE Tokiya
Tokyo Institute of Technology, Imaging Science & Engineering Laboratory
-
YAGI Yukako
University of Pittsburgh Medical Center, Health System, Department of Pathology, Division of Patholo
-
Ugurlu Yucel
Imaging Science And Engineering Laboratory Tokyo Institute Of Technology
-
Ugurlu Y
東京工業大学像情報工学施設
-
Abe Tokiya
Tokyo Institute Of Technology Imaging Science & Engineering Laboratory
-
Yagi Yukako
University Of Pittsburgh Medical Center Health System Department Of Pathology Division Of Pathology
-
UGURLU Yucel
Tokyo Institute of Technology, Imaging Science and Engineering Laboratory
-
Baez-rojas Jose
Instituto Nacional De Astrofisica Optica Y Electronica
-
Yamaguchi Masahiro
Akasaka Natural Vision Research Center Telecommunications Advancement Organization Of Japan:imaging
-
Yamaguchi Masahiro
Global Scientific Information and Computing Center, Tokyo Institute of Technology
著作論文
- Digital Staining of Unstained Pathological Tissue Samples through Spectral Transmittance Classification
- Detection of Small Opacities from Temporal Image Sequences using Multi-dimensional Clustering
- Optical Interpolation of Volume Data Using Pseudo Color and an Electro-Optical-Hybrid-System