目录 Chapter 1 Physical Rationale of Polarized Remote Sensing 1.1 Polarization of Light 1.2 Light Polarization on the Surface of Media 1.3 Characteristics of Polarization 1.4 Physical Rationale for Polarized Remote Sensing and Its Three Parts 1.5 Organization of Chapters References Chapter 2 Physical Characteristics of Multi-angle Polarized Reflectance 2.1 The Physical Basis of Physical Detection Geometry of Polarized Reflectance and Multi-angle Polarized Reflectance 2.2 Multi-angle Polarization Reflectance Analytical Instruments and the Methods of Measurement 2.3 The Incidence Angle and the Mechanism Underpinning Multi-angle Reflectance of the Ground Object 2.4 Analysis of the Characteristics of the Multi-angle Non-polarized Spectrum and Its DOP References Chapter 3 Multi-spectral Chemical Characteristics of Surface Polarization Reflection 3.1 DOP Spectra and Non-polarized Spectra 3.2 Reflectance Spectral Model in the 2元-Spatial Orientation of a Rock Surface 3.3 Spectral Parameter Inversion 3.4 Relationship Between the Composition of a Rock and the DOP References Chapter 4 Surface Roughness and Density Structure of Polarization Reflectance 4.1 Rock Surface Roughness and Its Spectral Relationship with the Multi-angle DOP 4.2 Surface Roughness Effects on the DOP of Different Scattering Angles 4.3 Relationship Between Reflectance Rate and Density of Ground Objects 4.4 Estimation of Substance Composition of Lunar Surface Rocks References Chapter 5 Signal-to-Background High Contrast Ratio Filtering of Polarimetric Reflection 5.1 Polarimetric Reflection Radio Filtering of Water Bodies with Dark Backgrounds (Weak Light Intensification) 5.2 Strong Water Body Sun Glint Polarization Separation (Bright Light Attenuation) and Measuring the Density of Water 5.3 The Polarization Reflection Filtering Characteristics of Bare Soil 5.4 The High Signal-to-Background Ratio Filtering Relationship Between Polarization and Bare Soil Moisture Content References Chapter 6 Characteristics of Radiative Transfer on Surface Polarization 6.1 Characteristics of Polarimetric Reflectance of the Vegetation Canopy 6.2 DOP Models of the Reflected Light from the Vegetation Canopy 6.3 Polarimetric Properties of a Single Leaf 6.4 Polarimetric Reflectance Characteristics of Different Crops References Chapter 7 The Nature and Physical Characteristics of the Full-sky Polarization Pattern 7.1 Theory of Sky Polarization Patterns 7.2 Measurement of the Sky Polarization Pattern and Its Parameter Distribution 7.3 Impacts on the DOP of the Sky Under Different Conditions 7.4 The Applicability of Different Polarization Angles References Chapter 8 Neutral Point Areas of Atmospheric Polarization and Land-Atmosphere Parameter Separation 8.1 Theory of Neutral Point Areas in Atmospheric Polarization 8.2 Observation of Neutral Point Areas in the Atmosphere Based on Polarization Pattern 8.3 Separation of Object and Atmospheric Effects Based on Neutral Point Areas of Atmospheric Polarization 8.4 Basic Experiment to Measure Separation of Object and Atmospheric Effects Based on Neutral Points References Chapter 9 Atmospheric Polarization Characteristics and Multi-angle Stereotopography 9.1 Physical Basis of Atmospheric Scattering 9.2 Single Scattering Characteristics of Non-spherical Aerosol and Polarization Observation Evidence 9.3 Multiple Scattering Based on Non-spherical Models and a Plane Distribution of the Full-sky Multi-angle Polarization Field 9.4 Separation Inversion of Non-spherical Aerosols and Land Surface Information Based on Sky Polarization Field Theory 9.5 Separation Inversion and Experimental Validation of Non-spherical Aerosol over Ocean and Land Surfaces: Information Based on Sky Polarization Pattern Theory References Chapter 10 Bionic Polarization for Automatic Navigation Using the Earths Polarization Vector Field 10.1 Polarization Pattern Navigation Mechanism Based on Path Integration Behaviour of Ants 10.2 Theoretical Basis for, and Model Analysis of, Bionic Polarization Navigation 10.3 Measurement Device Design and Function Attainment for Bionic Polarized Navigation 10.4 Bionic Polarized Navigation Models Based on Cloud Computing and Accuracy Measurement 10.5 Experimental Validation of Bionic Polarized Navigation Models and Precision Analysis References Chapter 11 Remote Sensing for Advanced Space Exploration and Global Change Research 11.1 Objective Conclusions Drawn from “Phase” Characteristics of Polarization V Component and Astronomic Polarization Observation 11.2 Comparison of Global Attributes of Full-sky Polarization Vector Field, Gravitational Field and Geomagnetic Field Objective Conclusions Drawn Therefrom 11.3 Density Calculation and Lunar Radiometric Calibration by Polarization 11.4 The Unique Means of Polarization Screening of the Remote Sensing Reversion of the Vegetation Biochemical Content and Global Climate Change Theory 11.5 Fundamental Status of Polarized Remote Sensing Parameters and the Prospects for the Theory of the Polarized Remote Sensing System References Afterword
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