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Sommario
Part I. Florida Everglades and Remote Sensing. 1. Florida Everglades and Restoration. 2. Introduction to Remote Sensing. 3. Vegetation Classification System in the Everglades. Part II. 4. Applying Aerial Photography to Map Marsh Species in the Wetland of Lake Okeechobee. 5. Unmanned Aircraft System (UAS) for Wetland Species Mapping. 6. Spaceborne Multispectral Sensors for Vegetation Mapping and Change Analysis. 7. Water Quality Modeling and Mapping using Landsat Data. 8. Mapping Sawgrass Aboveground Biomass using Landsat Data. 9. Applying Landsat Products to Assess the Damage and Resilience of Mangroves from Hurricanes. Part III. Hyperspectral Remote Sensing Applications 10. Applying Point Spectroscopy Data to Assess the Effects of Salinity and Sea Level Rise on Canopy Water Content of Juncus roemaerianus. 11. Applying Point Spectroscopy Data to Characterize Sand Properties. 12. Land Cover-level Vegetation Mapping using AVIRIS. 13. Species-level Vegetation Mapping in the Kissimmee River Floodplain using HyMap Data. 14. Benthic Habitat Mapping in the Florida Keys using EO-1/Hyperion. Part IV. Lidar Remote Sensing Applications. 15. Vulnerability Analysis of Coastal Everglades to Sea Level Rise using SLAMM. 16. Enhancing Lidar Data Integrity in the Coastal Everglades. 17. Assessing the Effects of Hurricane Irma on Mangrove Structures in the Coastal Everglades using Airborne Lidar Data. Part V. Fusing Multiple Sensors for Everglades Applications. 18. Integrating Aerial Photography, EO-1/Hyperion, and Lidar Data to Map Vegetation in the Coastal Everglades. 19. Assessing a Multi-sensor Fusion Approach to Map Detailed Reef Benthic Habitats in the Florida Reef Tract. Index.
Info autore
Dr. Zhang received her Ph.D. in Geospatial Information Sciences from University of Texas, Dallas. Her research at FAU focuses on vegetation characterization in the Florida Everglades using multiple sensors, biomass modeling and mapping, water quality monitoring and mapping, and analyzing coastal vulnerability to sea level rise and hurricanes. She has developed innovative methodology frameworks to monitor and map the Greater Everglades by combining multiple sensors and GIS techniques, which can assist with the restoration and conservation of the Florida Everglades ecosystem. She applies modern machine learning and advanced remote sensing image processing techniques in the coastal environments to understand the effects of human activities and natural disasters on the modification of coastal landscapes. She is teaching five major remote sensing courses at FAU including Remote Sensing of Environment, Digital Image Analysis, Hyperspectral Remote Sensing, Lidar Remote Sensing and Applications, and Photogrammetry and Aerial Photo Interpretation.
Riassunto
This book introduces multiple remote sensing systems, advanced data processing techniques, and applications of multiple remote sensing systems in wetland environments, especially Florida. The application of the systems' datasets, especially LiDAR data, applied to wetland ecosystems is unique from other case studies.
