Retrieval of Vegetation Indices and Vegetation Fraction in Highly Compact Urban Areas: A 3D Radiative Transfer Approach

Earth and Planetary Sciences

• Abundance 11%
• Algorithm 11%
• Approach 100%
• Building 33%
• Building Component 11%
• Comparison 11%
• Estimating 11%
• Evaluation 11%
• Exhibit 11%
• Fraction 100%
• Geometry 22%
• High Spatial Resolution 11%
• Highway 22%
• Images 11%
• Information Retrieval 100%
• Inversion 11%
• Investigation 11%
• Landsat 8 11%
• Metropolitan Area 100%
• Model 11%
• Normalized Difference Vegetation Index 100%
• Pixel 11%
• Proving 11%
• Radiance 11%
• Radiative Transfer 100%
• Reflectance 33%
• Retrieval 100%
• Satellite Image 11%
• Show 22%
• Sky 11%
• Spatial Resolution 11%
• Spectral Signature 11%
• Urban Material 11%
• Urban Structure 11%
• Urban Vegetation 11%
• Value 22%
• Vegetation 100%
• Vegetation Cover 55%
• Vegetation Index 100%
• View 11%

Keyphrases

• 3D Materials 11%
• 3D Radiative Transfer 100%
• 3D Structure 22%
• Adjacent pixel 11%
• Bidirectional Reflectance 11%
• Building Geometry 11%
• Building Materials 22%
• Discrete Anisotropic Radiative Transfer 11%
• Flux Tracking 11%
• Fractional Vegetation Cover 44%
• Ground Surface 11%
• Heterogeneous Structure 11%
• High Spatial Resolution 11%
• Index-based 11%
• Inversion Algorithm 11%
• Jilin-1 Satellite 11%
• Landsat 8 OLI 11%
• Material Heterogeneity 22%
• Material Reflectance 11%
• Natural Ground 11%
• Near-infrared Band 11%
• Normalized Difference Vegetation Index 100%
• Radiative Transfer Model 11%
• Satellite Images 11%
• Shading Condition 11%
• Sky View Factor 11%
• Spatial Resolution 11%
• Spectral Radiance 11%
• Spectral Signature 11%
• Spectro 11%
• Structured Materials 11%
• Synthetic Scene 11%
• Tracking Method 11%
• Transfer Approach 100%
• Urban Areas 100%
• Urban Buildings 11%
• Urban Geometry 11%
• Urban Materials 11%
• Urban Scene 33%
• Urban Structure 11%
• Urban Vegetation 11%
• Vegetation Abundance 11%
• Vegetation Assessment 11%
• Vegetation Cover 11%
• Vegetation Fraction 100%
• Vegetation Index 100%

INIS

• abundance 5%
• algorithms 5%
• anisotropy 5%
• assessments 5%
• building materials 10%
• compacts 100%
• comparative evaluations 10%
• constraints 5%
• corrections 10%
• geometry 10%
• images 10%
• performance 5%
• radiative transfer 100%
• roads 10%
• satellites 5%
• scattering 10%
• sky 5%
• spatial resolution 10%
• surfaces 5%
• urban areas 100%
• validation 5%
• values 10%
• vegetation 100%