Spatial Data Science
Introduction to R
Spatial data with
terra
Introduction
Spatial data
Vector data
Raster data
Reading and writing spatial data
Coordinate Reference Systems
Vector data manipulation
Raster data manipulation
Maps
Spatial data analysis
Remote Sensing
Processing MODIS data
Case studies
Species distribution modeling
The terra package
R companion to Geographic Information Analysis
Spatial Data Science
Spatial data with
terra
Spatial data with
terra
Introduction
Spatial data
Introduction
Vector data
Raster data
Simple representation of spatial data
Vector data
Introduction
Points
Lines and polygons
Raster data
Introduction
SpatRaster
Reading and writing spatial data
Introduction
Vector files
Reading
Writing
Raster files
Reading raster data
Writing raster data
Coordinate Reference Systems
Introduction
Coordinate Reference Systems (CRS)
Angular coordinates
Projections
Notation
Assigning a CRS
Transforming vector data
Transforming raster data
Vector data manipulation
Basics
Geometry and attributes
Variables
Merge
Records
Append and aggregate
Append
Aggregate
Overlay
Erase
Intersect
Union
Cover
Difference
Spatial queries
Raster data manipulation
Introduction
Creating SpatRaster objects
Raster algebra
‘High-level’ functions
Modifying a SpatRaster object
Overlay
Classify
Focal methods
Distance
Spatial configuration
Predictions
Vector to raster conversion
Summarizing functions
Helper functions
Accessing cell values
Coercion to other classes
Maps
SpatVector
SpatRaster
Basemaps
Interactive maps