Spatial Data Science
Introduction to R
Spatial data with
terra
Spatial data analysis
Introduction
Scale and distance
Spatial autocorrelation
Interpolation
Spatial distribution models
Local regression
Spatial regression models
Point pattern 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 analysis
Spatial data analysis
Introduction
Scale and distance
Introduction
Scale and resolution
Zonation
Distance
Distance matrix
Distance for longitude/latitude coordinates
Spatial influence
Adjacency
Two nearest neighbours
Weights matrix
Spatial influence for polygons
Raster based distance metrics
distance
cost distance
resistance distance
Spatial autocorrelation
Introduction
Temporal autocorrelation
Spatial autocorrelation
Example data
Adjacent polygons
Compute Moran’s
I
Interpolation
Introduction
Temperature in California
9.2 NULL model
proximity polygons
Nearest neighbour interpolation
Inverse distance weighted
Calfornia Air Pollution data
Data preparation
Fit a variogram
Ordinary kriging
Compare with other methods
Cross-validation
Spatial distribution models
Data
Observations
Predictor variables
Background data
East vs West
Fit a model
CART
Random Forest
Predict
Regression
Classification
Extrapolation
Climate change
Further reading
Local regression
California precipitation
California House Price Data
Summarize
Regression
Geographicaly Weighted Regression
By county
By grid cell
spgwr package
Spatial regression models
Introduction
Reading & aggregating data
Get the data
Basic OLS model
Spatial lag model
Spatial error model
Questions
Point pattern analysis
Introduction
Basic statistics
Density
Distance based measures
Spatstat package