スポンサーリンク
Image Science And Engineering Laboratory Tokyo Institute Of Technology | 論文
- Correction of Nonuniform Response in the Reconstruction for Single Photon Emission Computed Tomography with a Spatially Varying Focal Length Collimator
- Correction for Shift-variant Characteristics of Single Photon Emission Computed Tomography Acquisition System Using Sensitivity Functions
- Two-Dimensional Cellular Automata for Pseudo-Random Pattern Generators and for Highly Secure Stream Ciphers
- Time Series Analysis of Personal Chest Radiographs for Detection of Long-term Interval Changes
- Detection of Small Opacities from Temporal Image Sequences using Multi-dimensional Clustering
- Color Correction of Pathological Images Based on Dye Amount Quantification
- Hierarchical Clustering Method for Extraction of Knowledge from a Large Amount of Data
- A Stereographic Display Using a Reflection Holographic Screen
- Topographic Measurement of Internal Surfaces Using a Sequence of Stereo Charge-Coupled Device Endoscopic Images:(1)Method
- Shape Measurement from Endoscopic Images : Determination of Dimensional Scale Factor by a Photometric Method
- Reconstruction of the Gastric Surface Structure Using a Monocular CCD Endoscope
- Modeling Scatter in Multiple Energy Windows to Incorporate Scattered Radiation Information in Single Photon Emission Computed Tomography Imaging
- Optical Interpolation of Volume Data Using Pseudo Color and an Electro-Optical-Hybrid-System
- Analysis of Digital Lateral Shearing Interferometer
- Measurement of Shear in a Lateral Shearing Interferometer
- Estimation of Electrical Source Localization Using the Temporal Correlation between Magnetic Field Measurements
- Zone Plate Common Path Interferometer for Testing Aspherical Mirror with Large Aperture
- Optical Configurations for Solving Equations Using Nonlinear Etalons
- Layered Scalable Coding of Multispectral Images Based on Visible Component Separation
- 3D Shape Recovery from Range Image using Active Balloon Model (第3回International Workshop on Advanced Image Technology(IWAIT2000)〔英文〕)