Satellite and UAV Platforms, Remote Sensing for Geographic Information Systems

doi:10.3390/books978-3-0365-5362-7

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Satellite and UAV Platforms, Remote Sensing for Geographic Information Systems

Edited by

September 2022

224 pages

ISBN978-3-0365-5361-0 (Hardback)
ISBN978-3-0365-5362-7 (PDF)

https://doi.org/10.3390/books978-3-0365-5362-7

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This book is a reprint of the Special Issue Satellite and UAV Platforms, Remote Sensing for Geographic Information Systems that was published in

Chemistry & Materials Science

Engineering

Environmental & Earth Sciences

Summary

The present book contains ten articles illustrating the different possible uses of UAVs and satellite remotely sensed data integration in Geographical Information Systems to model and predict changes in both the natural and the human environment. It illustrates the powerful instruments given by modern geo-statistical methods, modeling, and visualization techniques. These methods are applied to Arctic, tropical and mid-latitude environments, agriculture, forest, wetlands, and aquatic environments, as well as further engineering-related problems. The present Special Issue gives a balanced view of the present state of the field of geoinformatics.

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Keywords

mosaicking; urban image; seamline determination; deep learning; D-LinkNet; climate change; evergreen plants; extreme events; flavonol and chlorophyll sensor (Dualex); greenness indices; mosses; near-remote sensing active and passive NDVI sensors; Sentinel-2; subarctic vegetation damage; crop growth; reflectance saturation; crop model; assimilation; crop growth stage; method combinations; sentinel-2A image; UAV image; remote sensing; soil salinity; Love/Shida numbers; satellite laser ranging (SLR); Yarragadee station; Mount Stromlo station; LAGEOS; STELLA; STARLETTE satellites; SLR stations coordinates; ITRF2014; Lake Ladoga; CMEMS GlobColour CHL-OC5; eutrophication; water quality assessment; pulp and paper mill; climate change; ecological status; remote sensing; phytoplankton and chlorophyll-a; chemical wastewater pollution; ArcGIS; big data; blueberries; deep learning; image analysis; orthomosaics; segmentation refinement; UAVs; HAPS; UAV; monitoring; constrained multiple objective optimization; temporal hierarchical task planning; GNSS stations; tectonic plate motion parameters; ITRF; vegetation monitoring; drivers of deforestation; Zambezi region; land degradation; vegetation cover change; wildlife management; TSS-RESTREND; greening and browning; MODIS; Mann–Kendall; n/a