دانلود کتاب Shedding the Polarized Light on Biological Tissues (SpringerBriefs in Applied Sciences and Technology)

فهرست مطالب :

Introduction
References
Contents
1 Methods and Means of Polarization Correlation of Fields of Laser Radiation Scattered by Biological Tissues
1.1 Polarization-Inhomogeneous Fields and Methods for Their Analysis
1.2 Polarization Mapping of Microscopic Images of Biological Tissues
1.3 Wavelet Analysis of Polarization Maps and Mueller-Matrix Images of Biological Tissues
1.4 Fourier Analysis of Polarization-Inhomogeneous Fields
1.5 Correlation Approaches to the Analysis of Polarization-Inhomogeneous Fields
1.6 The Complex Degree of Mutual Polarization of Microscopic Images of Biological Tissues
1.7 The Complex Degree of Mutual Anisotropy of Biological Tissues
1.8 Azimuthal Polarization Invariants
References
2 Materials and Methods
2.1 Azimuthally Invariant Polarization Mapping System
2.2 The System of Azimuthally Invariant Mueller-Matrix Mapping of Biological Layers
2.3 CDMP Mapping System
2.4 CDMA Mapping System
2.5 Wavelet Analysis Scheme
2.6 Fourier Analysis Scheme
2.7 Characterization of Research Objects
References
3 Scale-Selective and Spatial-Frequency Correlometry of Polarization-Inhomogeneous Field
3.1 Wavelet Analysis of Azimuthally Invariant Distributions of Polarization Parameters of Microscopic Images of Biological Tissues
3.1.1 Wavelet Analysis of Azimuthally Invariant Polarization Maps of Spatially Ordered Optically Anisotropic Networks of Biological Tissues
3.1.2 Wavelet Analysis of Azimuthally Invariant Polarization Maps of Spatially Disordered Optically Anisotropic Networks of Biological Tissues
3.1.3 Diagnostic Application of Wavelet Analysis of Azimuthally Invariant Polarization Maps
3.2 Wavelet Analysis of Azimuthally Invariant Mueller-Matrix Images of Biological Tissues
3.2.1 Wavelet Analysis of Azimuthally Invariant Mueller-Matrix Images of Spatially Ordered Optically Anisotropic Networks of Biological Tissues
3.2.2 Wavelet Analysis of Azimuthally Invariant Mueller-Matrix images of Spatially Disordered Optically Anisotropic Networks of Biological Tissues
3.2.3 Diagnostic Application of Wavelet Analysis of Azimuthally Invariant Mueller-Matrix Images
3.3 A Brief Theory of the Method of Spatial-Frequency Filtration of Polarization-Inhomogeneous Microscopic Images of Histological Sections of Biological Tissues
3.4 Fourier Analysis of Azimuthally Invariant Distributions of Polarization Parameters of Microscopic Images of Biological Tissues
3.5 Fourier Analysis of Azimuthally Invariant Mueller-Matrix Images of Biological Tissues
References
4 Polarization Correlometry of Microscopic Images of Polycrystalline Networks Biological Layers
4.1 Polarization Correlometry of Microscopic Images of Biological Layers
4.1.1 Brief Theory of the Method
4.1.2 CDMP Mapping of Microscopic Images of Biological Layers with Ordered Architectonics
4.1.3 CDMP Mapping of Microscopic Images of Biological Layers with Disordered Architectonics
4.1.4 CDMP Mapping Diagnostic Features
4.2 Polarization Correlometry of Optically Anisotropic Networks of Biological Layers
4.2.1 CDMA Mapping of Biological Layers with Ordered Architectonics
4.2.2 CDMA Mapping of Biological Layers with Disordered Architectonics
4.2.3 Diagnostic Features of CDMA-Mapping
References
5 Multifunctional Stokes Correlometry of Biological Layers
5.1 Wavelet Analysis of CDMP Maps of Microscopic Images of Biological Tissues
5.1.1 Biological Tissues with Ordered Architectonics
5.1.2 Biological Tissues with Disordered Architectonics
5.1.3 Diagnostic Capabilities of CDMP Mapping of Microscopic Images of Biological Tissues
5.2 Wavelet Analysis of Biological Tissue CDMA-Maps
5.2.1 Biological Tissues with Ordered Architectonics
5.2.2 Biological Tissues with Disordered Architectonics
5.2.3 Diagnostic Capabilities of CDMA Mapping of Biological Tissue Images
5.3 Diagnostic Capabilities of the Fourier Analysis of CDMP Maps of Microscopic Images of Biological Tissues
5.4 Diagnostic Capabilities of the Fourier Analysis of CDMA Cards of Polycrystalline Networks of Biological Tissues
5.5 Main Results and Conclusions
Main Results and Conclusions