Ikeda Mitsuo | Department Of Imaging And Printing Technology Chulalongkorn University
スポンサーリンク
概要
関連著者
-
Ikeda Mitsuo
Department Of Imaging And Printing Technology Chulalongkorn University
-
SHINODA Hiroyuki
Department of Photonics, Ritsumeikan University
-
Shinoda Hiroyuki
Department Of Electrical And Electronic Engineering Ritsumeikan University
-
Shinoda Hiroyuki
Department Of Dermatology Hokkaido University Graduate School Of Medicine
-
Shinoda Hiroyuki
Department of Applied Chemistry, Faculty of Science and Engineering, Waseda University
-
SHINODA Hiroyuki
Ritsumeikan University
-
Shinoda H
Ritsumeikan University
-
Mizokami Yoko
Department Of Photonics Ritsumeikan University
-
Ikeda M
Ritsumeikan Univ. Shiga Jpn
-
Ikeda Mitsuo
Department Of Photonics Faculty Of Science And Engineering Ritsumeikan University
-
ハンスエブサイ アラン
チュラロンコン大学
-
溝上 陽子
千葉大学
-
Katemake Pichayada
Department Of Imaging And Printing Technology Chulalongkorn University
-
Hansuebsai A
Chulalongkorn Univ. Bangkok Tha
-
Hansuebsai Aran
Department Of Imaging And Printing Technology Chulalongkorn University
-
Pungrassamee Pontawee
Department Of Imaging And Printing Technology Chulalongkorn University
-
Ikeda Mitsuo
Department Of Information Processing Tokyo Institute Of Technology Graduate School
-
IKEDA Mitsuo
Department of Photonics, Faculty of Science and Engineering, Ritsumeikan University
-
Yaguchi Hirohisa
Department Of Image Science And Engineering Faculty Of Engineering Chiba University
-
Katemake Pichayada
チュラロンコーン大学
-
Ohmi Masao
Department Of Information Processing Tokyo Institute Of Technology Graduate School
-
THIANGTHANGTUM Yuwadee
Department of Photonics, Faculty of Science and Engineering, Ritsumeikan University
-
Thiangthangtum Yuwadee
Department Of Photonics Faculty Of Science And Engineering Ritsumeikan University
-
Yamauchi Rumi
Department Of Photonics Faculty Of Science And Engineering Ritsumeikan University
-
Nakane Sachi
Department Of Photonics. Faculty Of Science And Engineering Ritsumeikan University
-
Uchikawa Keiji
Department Of Information Processing Tokyo Institute Of Technology Graduate School
-
Yaguchi Hirohisa
Department Of Information Processing Tokyo Institute Of Technology Graduate School
-
Ikeda Mitsuo
Department Of Photonics Ritsumeikan University
-
Uchikawa Keiji
Department Of Information Processing Tokyo Institute Of Technology
-
BEBKO James
Department of Information Processing, Tokyo Institute of Technology Graduate School
-
SAIDA Shinya
Department of Information Processing, Tokyo Institute of Technology Graduate School
-
Saida Shinya
Department Of Applied Physics National Defense Academy
-
Saida Shinya
Department Of Information Processing Tokyo Institute Of Technology Graduate School
-
Hattori Yuko
Department Of Photonics Faculty Of Science And Engineering Ritsumeikan University
-
YAMAUCHI Rumi
Department of Photonics, Faculty of Science and Engineering, Ritsumeikan University
-
Bebko James
Department Of Information Processing Tokyo Institute Of Technology Graduate School
-
UCHIKAWA H.
Now at York University, Department of Psychology
-
AYAMA M.
Department of Information Processing Tokyo Institute of Technology Graduate School
-
Yamauchi Rumi
Department Of Photonics Faculty Of Science And Engineering. Ritsumeikan University
-
Ikeda Mitsuo
Department Of Photonics Faculty Of Science And Engineering. Ritsumeikan University
-
KUSUMI Azusa
Department of Photonics, Faculty of Science and Engineering, Ritsumeikan University
-
Shinoda Hiroyuki
Department Of Photonics Faculty Of Science And Engineering Ritsumeikan University
-
Shinoda Hiroyuki
Department Of Photonics Faculty Of Science And Engineering. Ritsumeikan University
-
Shinoda Hiroyuki
Department Of Photonics Ritsumeikan University
-
Kusumi Azusa
Department Of Photonics Faculty Of Science And Engineering Ritsumeikan University
-
OHMI Masao
Department of Information Processing, Tokyo Institute of Technology Graduate School,
-
IKEDA Mitsuo
Department of Information Processing, Tokyo Institute of Technology Graduate School
-
IKEDA Mitsuo
Department of Imaging and Printing Technology, Faculty of Science, Chulalongkorn University
-
PHUANGSUWAN Chanprapha
Department of Imaging and Printing Technology, Faculty of Science, Chulalongkorn University
著作論文
- Color Constancy in a Photograph Perceived as a Three-Dimensional Space
- Color Appearance of a Patch Explained by RVSI for the Conditions of Various Colors of Room Illumination and of Various Luminance Levels
- Color Property of the Recognized Visual Space of Illumination Controlled by Interior Color as the Initial Visual Information
- Phenomena of Apparent Lightness Interpreted by Recognized Visual Space of Illumination
- Apparent Lightness Influenced by the Size of the Recognized Visual Space of Illumination
- Lightness Change as Perceived in Relation to the Size of Recognized Visual Space of Illumination
- Three Dimensionality of the Recognized Visual Space of Illumination Provea by Hidden Illumination
- Learning to Recognize Patterns : Changes in the Visual Field with Familiarity
- Size Effect of the Immediate Surround for the Border between the Natural and Unnatural Object Color Appearance
- Room Illuminance rather than Immediate Surrounding Luminance Determines Natural to Unnatural Color of an Object Border
- Color Appearance Explained, Predicted and Confirmed by the Concept of Recognized Visual Space of Illumination
- Failure of Color Constancy for High Luminance of a Test Patch that Appears Unnatural as an Object in a Space
- The Brain Adaptation to the Color of Illumination and not the Retinal Adaptation to the Color of Objects that Determines the Color Appearance of an Object in the Space
- Color Appearance Determined by Recognition of Space
- Spatial summation properties on background field and in dark inferred by summation index
- Luminous efficiencies of 2゜and 10゜ fields for brightness perception obtained from Japanese subjects
- Luminous efficiency function for small stimulus size
- Walls Surrounding a Space Work More Efficiently Construct a Recognized Visual Space of Illumination than Do Scattered Objects
- Luminous efficiency functions by heterochromatic brightness matching for a wide range of retinal illuminance
- The influence of the luminance level upon the functional visual field for detecting a colored target
- Color Modification of Pictures Requiring Same Color Impression as Real Scene
- Effect of Space Recognition on the Apparent Lightness of Gray Patches Demonstrated on Printed Patterns
- Visual Acuity Depends on Perceived Size
- Color Appearance Seen through a Colored Filter of Various Sizes
- Color Constancy Demonstrated in a Photographic Picture by Means of a D-up Viewer