2-D structure reconstruction for a DOT method based on linear perturbation approach (特集 赤外線技術とその応用)
スポンサーリンク
概要
- 論文の詳細を見る
Biological imaging with a method for diffusion optical tomography is demonstrated. The present method is based on weight function of discrete model for scattering tissues. The weight function is given as a product form between sensitivity function and optical mean path length. The method is applied to two-dimensional imaging for inhomogeneous media by simulation. As results of the simulation, it is verified that the present method can extract parts with stronger absorption coefficient from backgrounds.
- 社団法人 電気学会の論文
- 2009-11-01
著者
-
Nitta Kouichi
Department Of Computer And Systems Engineering Faculty Of Engineering Kobe University
-
Nitta Kouichi
Department Of Computer Science And Systems Engineering Kobe University
-
MATOBA Osamu
Department of Computer and Systems Engineering, Kobe University
-
Matoba Osamu
Department Of Applied Physics Faculty Of Engineering Osaka Unviersity
-
Matoba Osamu
Department Of Computer Science And Systems Engineering Kobe University
関連論文
- Parallel Two-Step Phase-Shifting Digital Holography Using Polarization
- 2-D structure reconstruction for a DOT method based on linear perturbation approach (特集 赤外線技術とその応用)
- Learning Generalization by Validation Set
- Characteristics of Weight Function in a Steady-state Diffusion Optical Tomography
- Optical Switching Elements Using Controllable Defect Modes in One-Dimensional Photonic Crystals
- Range Technique in Scattering Medium Using a Needle-Fiber Optical Coherence Tomography System
- Optical Learning Neural Network Using Photorefractive Waveguides
- Modification of Photorefractive Waveguides in Lithium Niobate by Guided Beam for Optical Dynamic Interconnection
- Analysis of Photo-Induced Waveguide in Lithium Niobate Crystal
- Improvement of Storage Capacity Using Confocal Scheme in Reflection-Type Holographic Memory System with Speckle Shift Multiplexing
- Multiresolution Coding Using Amplitude and Phase Modulations for Holographic Data Storage
- Comparative Analysis and Quantitative Evaluation of the Field of View and the Viewing Zone of Single-Shot Phase-Shifting Digital Holography Using Space-Division Multiplexing
- Detection and Evaluation of Security Features Embedded in Paper Using Spectral-Domain Optical Coherence Tomography
- Oil Leakage Detection System for Plant Inspection
- Background Noise Reduction in an Integrated Volume Holographic Imaging Element for Eye-Gaze Detection
- Imaging Characteristics of Transmission-Type Volume Holographic Imaging Elements
- Full-Field Optical Coherence Tomography System with Controllable Longitudinal Resolution
- Optical Switching Elements Using Controllable Defect Modes in One-Dimensional Photonic Crystals
- An Optical Parallel System for Prime Factorization