Abstract Abbreviations and Conventions 1. Analysis of Modern Aspects of Determination of Lifetime and Injuries Prescriptions in Forensic Medicine 1.1. Modern Aspects of Determination of Lifetime and Injuries Prescriptions in Forensic Medicine 1.2. Optical Polarization and Correlation Methods of the Diagnostics of Phase-Inhomogeneous Biological Structures in Medicine References 2. Materials and Methods of Research in Laser Polarimetry Data Processing of Biological Tissues for Forensic Determination of the Age of Injury Abstract 2.1.
Morphological Structure of Human Skin 2.1.1. Epidermis 2.1.2. Derma, or Skin Itself 2.1.
3. Amorphous Skin Substance 2.2. Modeling of the Human Skin Layer as a Transformer of Laser Padiation Parameters 2.2.1. The Formation of the Distribution of Azimuths and Elliptic Polarization and Phase Shifts of the Laser Image of Histological Sections of the Skin 2.2.
2. The Formation of Intensity Distributions of Laser Images of Histological Sections of the Skin 2.2.3. The Formation of Distributions of the Degree of Depolarization of Laser Radiation Scattered by Histological Sections of the Skin 2.3. The Experimental Scheme of Polarimetric Studies 2.3.
1. Method of Measurement of Polarization and Phase Parameters of the Laser Images 2.4. Statistical and Correlation Approaches in the Analysis of Laser Images of Skin Derma 2.5. Fractal Approach in the Analysis of the Polarization Properties of Laser Images of Skin Histological Sections 2.6. Experimental Illustrations of the Polarization Structure of Laser Images of Histological Sections of Human Skin References 3.
Determination of the Lifetime and Post-Mortal Nature and Temporal Dynamics of the Formation of Abrasions of Human Skin Abstract 3.1. Study of the Statistical Structure of the Intensity Distribution of Laser Images of Histological Sections of Skin Abrasions 3.2. Analysis of the Statistical Structure of the Power Spectra of Intensity of Laser Images of Histological Sections of Skin Abrasions 3.3. Investigation of the Temporal Dynamics of Changes of the Statistical Parameters of the Intensity Distributions of Laser Images of Skin Abrasions References 4. Study of Two-Dimensional Polarization Maps of the Skin for Differentiation of Lifetime and Post-Mortal Nature and Temporal Dynamics of Abrasions Abstract 4.
1. Study of Two-Dimensional Distributions of Azimuths of Polarization of Laser Images of the Skin with Lifetime and Post-Mortal Abrasions 4.2. Study of the Temporal Dynamics of Changes in the Average and Dispersion of the Coordinate Distributions of the Azimuths of Polarization of Laser Images of Skin Abrasions 4.3 Study of Two-Dimensional Distributions of Ellipticity of Polarization of Laser Images of Skin with Lifetime and Post-Mortal Abrasions 4.4. Investigation of the Temporal Dynamics of Changes in the Average and Dispersion of the Coordinate Distribution of the Ellipticity of Polarization of Laser Images of Skin Abrasions 4.5.
Correlation and Frequency-Spectral Analysis of Polarization Maps of Skin Abrasions 4.5.1. Correlation Analysis of Coordinate Distributions of the Azimuth of Polarization of the Laser Images of Skin Abrasions 4.5.2. Spatial-Frequency Analysis of Coordinate Distributions of Azimuths of Polarization of Laser Images of Skin Abrasions 4.5.
3. Correlation Analysis of Coordinate Distributions of Ellipticity of Polarization of Laser Images of Skin Abrasions 4.5.4. Spatial-Frequency Analysis of Coordinate Distributions of Ellipticity of Polarization of Laser Images of Skin Abrasions References 5. Study of the Evolution of Phase Images of the Skin for Differentiation of the Lifetime and Post-Mortal Skin Abrasions and the Time of their Appearance Abstract 5.1. Investigation of the Temporal Dynamics of Changes in Phase Shifts Between of Orthogonal Components of the Amplitude of Laser Radiation Scattered by Skin Abrasions 5.
2. Correlation and Spatial-Frequency Structure of Phase Images of Histological Sections of Skin Abrasions of Biomannequins 5.3. Spatial-Frequency Analysis of a Temporary Change in the Coordinate Phase Distributions of Laser Images of Skin Abrasions References Conclusions References.