superClass: Supervised Classification

Description

Supervised classification both for classification and regression mode based on vector training data (points or polygons).

Usage

superClass(img, trainData, valData = NULL, responseCol = NULL, nSamples = 1000, polygonBasedCV = FALSE, trainPartition = NULL, model = "rf", tuneLength = 3, kfold = 5, minDist = 2, mode = "classification", predict = TRUE, predType = "raw", filename = NULL, verbose, overwrite = TRUE, ...)

Arguments

img

Raster* object. Typically remote sensing imagery, which is to be classified.

trainData

SpatialPolygonsDataFrame or SpatialPointsDataFrame containing the training locations.

valData

SpatialPolygonsDataFrame or SpatialPointsDataFrame containing the validation locations (optional).

responseCol

Character or integer giving the column in trainData, which contains the response variable. Can be omitted, when trainData has only one column.

nSamples

Integer. Number of samples per land cover class.

polygonBasedCV

Logical. If TRUE model tuning during cross-validation is conducted on a per-polygon basis. Use this to deal with overfitting issues. Does not affect training data supplied as SpatialPointsDataFrames.

trainPartition

Numeric. Partition (polygon based) of trainData that goes into the training data set between zero and one. Ignored if valData is provided.

model

Character. Which model to use. See train for options. Defaults to randomForest ('rf'). In addition to the standard caret models, a maximum likelihood classification is available via model = 'mlc'.

tuneLength

Integer. Number of levels for each tuning parameter (see train for details).

kfold

Integer. Number of cross-validation resamples during model tuning.

minDist

Numeric. Minumum distance between training and validation data, e.g. minDist=1 clips validation polygons to ensure a minimal distance of one pixel (pixel size according to img) to the next training polygon. Requires all data to carry valid projection information.

mode

Character. Model type: 'regression' or 'classification'.

predict

Logical. Produce a map (TRUE, default) or only fit and validate the model (FALSE).

predType

Character. Type of the final output raster. Either "raw" for class predictions or "prob" for class probabilities. Class probabilities are not available for all classification models (predict.train).

filename

Path to output file (optional). If NULL, standard raster handling will apply, i.e. storage either in memory or in the raster temp directory.

verbose

Logical. prints progress and statistics during execution

overwrite

logical. Overwrite spatial prediction raster if it already exists.

...

further arguments to be passed to train

Value

A list containing [[1]] the model, [[2]] the predicted raster and [[3]] the class mapping

Details

SuperClass performs the following steps:

Ensure non-overlap between training and validation data. This is neccesary to avoid biased performance estimates. A minimum distance (minDist) in pixels can be provided to enforce a given distance between training and validation data.

Sample training coordinates. If trainData (and valData if present) are SpatialPolygonsDataFrames superClass will calculate the area per polygon and sample nSamples locations per class within these polygons. The number of samples per individual polygon scales with the polygon area, i.e. the bigger the polygon, the more samples.

Split training/validation If valData was provided (reccomended) the samples from these polygons will be held-out and not used for model fitting but only for validation. If trainPartition is provided the trainingPolygons will be divided into training polygons and validation polygons.

Extract raster data The predictor values on the sample pixels are extracted from img

Fit the model. Using caret::train on the sampled training data the model will be fit, including parameter tuning (tuneLength) in kfold cross-validation. polygonBasedCV=TRUE will define cross-validation folds based on polygons (reccomended) otherwise it will be performed on a per-pixel basis.

Predict the classes of all pixels in img based on the final model.

Validate the model with the independent validation data.

Examples

Run this code

library(caret)
library(randomForest)
library(e1071)
library(raster)
data(rlogo)
train <- readRDS(system.file("external/trainingPoints.rds", package="RStoolbox"))

## Plot training data
olpar <- par(no.readonly = TRUE) # back-up par
par(mfrow=c(1,2))
colors <- c("yellow", "green", "deeppink")
plotRGB(rlogo)
plot(train, add = TRUE, col =  colors[train$class], pch = 19)

## Fit classifier (splitting training into 70\% training data, 30\% validation data)
SC 	  <- superClass(rlogo, trainData = train, responseCol = "class", 
model = "rf", tuneLength = 1, trainPartition = 0.7)
SC

## Plots
plot(SC$map, col = colors, legend = FALSE, axes = FALSE, box = FALSE)
legend(1,1, legend = levels(train$class), fill = colors , title = "Classes", 
horiz = TRUE,  bty = "n")
par(olpar) # reset par