Optical imaging : technology, methods and applications /

Detalles Bibliográficos
Clasificación:Libro Electrónico
Formato: Electrónico eBook
Idioma:Inglés
Publicado: New York : Nova/NovaScience Publishers, Inc., [2012]
Colección:Lasers and electro-optics research and technology series.
Temas:
Optical spectroscopy.
Imaging systems.
Spectroscopie optique.
Imagerie (Technique)
TECHNOLOGY & ENGINEERING > Imaging Systems.
Imaging systems
Optical spectroscopy
Acceso en línea:Texto completo
Tabla de Contenidos:
  • OPTICAL IMAGING ; OPTICAL IMAGING ; CONTENTS ; PREFACE ; OPTICAL IMAGE ANALYSIS AND DETERMINATION OF DISPERSED MULTI PHASE FLOW FOR SIMULATION AND CONTROL ; ABSTRACT ; 1. INTRODUCTION AND STATE-OF-THE-ART ; 1.1. Different Scales of Interactions ; 1.1.1. Micro-Scale ; 1.1.2. Meso-Scale ; 1.1.3. Macro-Scale; 1.2. Measurement Techniques ; 2. OPTICAL TECHNIQUES; 2.1. Physical Principles ; 2.1.1. Entocentric Applications ; 2.1.2. Partially Telecentric Applications ; 2.1.3. Telecentric Applications ; 2.2. Illumination ; 2.2.1. Incident-Light Illumination ; 2.2.2. Transmitted-Light Illumination.
  • 2.2.3. Köhler Illumination2.3. Summary and Discussion ; 2.4. Reference Methods ; 2.4.1. Conductivity ; 2.4.2. Isokinetic Sampling Method ; 3. IMAGE ANALYSIS; 3.1. Principles ; 3.2. Preprocessing ; 3.3. Algorithms Overview ; 3.3.1. Hough Transform ; 3.3.2. Template Matching ; 3.3.3. Random Sample Consensus ; 3.3.4. Distance Transform ; 3.3.5. Random Forest Classifier ; 3.4. Summary and Discussion ; 4. MODELING AND SIMULATION BASED ON POPULATION BALANCE METHODS ; 4.1. Mathematical Models ; 4.2. Numerical Methods ; 4.2.1. Direct Discretization Method ; 4.2.2. Monte Carlo Method.
  • 4.2.3. Method of Moments (MOM) 4.3. One Primary One Secondary Particle Method (OPOSPM) ; 4.4. Droplet Interactions; 4.4.1. Droplet Breakage ; 4.4.2. Droplet Coalescence ; 4.5. Implementation ; 5. EXPERIMENTAL ; 5.1. Geometries of the Used Extraction Columns; 5.2. Analytical Probes ; 5.2.1. Optical Techniques; 5.2.2. Conductivity ; 5.3. Results and Discussion ; 5.3.1. Comparison of Measurement Techniques ; 5.3.2. Steady-State Results; 5.3.2.1. Variation of Rotor Speed and Flow Rate in the 150 mm Column ; 5.3.2.2. Variation of Rotor Speed and Flow Rate in the 100 mm Column.
  • 5.3.3. Transient Results 5.3.3.1. Dynamic Behavior of 150 mm Column ; 5.3.2.2. Dynamic Determination and Simulation of Process Parameter Steps ; CONCLUSION ; REFERENCES ; OPTICAL IMAGING APPLICATIONS FOR THE STUDY OF CULTURAL HERITAGE ARTIFACTS ; 1. INTRODUCTION ; 2. OPTICAL IMAGING TECHNIQUES FOR THE CONSERVATION OF CULTURAL HERITAGE ; 2.1. Preliminary Visual Examination and Routine Techniques for Optical Imaging in Conservation; 2.1.1. IR and UV Non-invasive Imaging ; 2.1.2. Visible Light Microscopy; 2.1.2.1. Plain Light Stereomicroscopy ; 2.1.2.2. Polarized Light Microscopy.
  • 2.1.3. Fluorescence Microscopy 2.2. Confocal Microscopy ; 2.3. 3D Digital Microscopy ; 2.4. Basic Techniques for Sample Preparation in Microscopic Applications ; 2.4.1. Samples in Cultural Heritage Conservation ; 2.4.2. Techniques for Sample Preparation ; 3. SURFACE INVESTIGATION OF ART OBJECTS USING OPTICAL IMAGING ; 4. CROSS-SECTION AND THIN-SECTION INVESTIGATION OF ART OBJECTS USING OPTICAL IMAGING ; 5. MONITORING THE RESTORATION TREATMENTS USING OPTICAL IMAGING TOOLS ; CONCLUSION; ACKNOWLEDGMENTS ; REFERENCES.

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