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A Guide to the GauPro R package

Collin Erickson

2024-09-24

This R package provides R code for fitting Gaussian process models to data. The code is created using the R6 class structure, which is why $ is used to access object methods.

A Gaussian process fits a model to a dataset, which gives a function that gives a prediction for the mean at any point along with a variance of this prediction.

Suppose we have the data below

x <- seq(0,1,l=10)
y <- abs(sin(2*pi*x))^.8
plot(x, y)

A linear model (LM) will fit a straight line through the data and clearly does not describe the underlying function producing the data.

lm_mod <- lm(y ~ x)
plot(x, y)
abline(a=lm_mod$coef[1], b=lm_mod$coef[2], col='red')

A Gaussian process is a type of model that assumes that the distribution of points follows a multivariate distribution.

In GauPro, we can fit a GP model with Gaussian correlation function using the function ``

library(GauPro)
## Loading required package: mixopt
## Loading required package: dplyr
## 
## Attaching package: 'dplyr'
## The following objects are masked from 'package:stats':
## 
##     filter, lag
## The following objects are masked from 'package:base':
## 
##     intersect, setdiff, setequal, union
## Loading required package: ggplot2
## Loading required package: splitfngr
## Loading required package: numDeriv
## Loading required package: rmarkdown
## Loading required package: tidyr
gp <- GauPro(x, y, parallel=FALSE)
## Warning: `GauPro_Gauss$new()` was deprecated in GauPro 0.2.12.
## ℹ Please use GauPro::GauPro_kernel_model instead
## ℹ The deprecated feature was likely used in the R6 package.
##   Please report the issue at <https://github.com/r-lib/R6/issues>.
## This warning is displayed once every 8 hours.
## Call `lifecycle::last_lifecycle_warnings()` to see where this warning was
## generated.

Now we can plot the predictions given by the model. Shown below, this model looks much better than a linear model.

plot(x, y)
curve(gp$predict(x), add=T, col=2)

A very useful property of GP’s is that they give a predicted error. The blue lines give an approximate 95% confidence interval. The width of the prediction interval is largest between points and goes to zero near data points, which is what we would hope for.

plot(x, y)
curve(gp$predict(x), add=T, col=2)
curve(gp$predict(x)+2*gp$predict(x, se=T)$se, add=T, col=4)
curve(gp$predict(x)-2*gp$predict(x, se=T)$se, add=T, col=4)

GP models give distributions for the predictions. Realizations from these distributions give an idea of what the true function may look like. Calling plot on the 1-D gp object shows 20 realizations. There is no visible difference between the data points, only at the ends.

if (requireNamespace("MASS", quietly = TRUE)) {
  plot(gp)
}

Using kernels

The kernel, or covariance function, has a large effect on the Gaussian process being estimated. The function GauPro uses the squared exponential, or Gaussian, covariance function. The newer version of GauPro has a new function that will fit a model using whichever kernel is specified.

To do this a kernel must be specified, then passed to GauPro_kernel_model$new. The example below shows what the Matern 5/2 kernel gives.

kern <- Matern52$new(0)
gpk <- GauPro_kernel_model$new(matrix(x, ncol=1), y, kernel=kern, parallel=FALSE)
## * nug is at minimum value after optimizing. Check the fit to see it this caused a bad fit. Consider changing nug.min. This is probably fine for noiseless data.
if (requireNamespace("MASS", quietly = TRUE)) {
  plot(gpk)
}

The exponential kernel is shown below. You can see that it has a huge effect on the model fit. The exponential kernel assumes the correlation between points dies off very quickly, so there is much more uncertainty and variation in the predictions and sample paths.

kern.exp <- Exponential$new(0)
gpk.exp <- GauPro_kernel_model$new(matrix(x, ncol=1), y, kernel=kern.exp, parallel=FALSE)
if (requireNamespace("MASS", quietly = TRUE)) {
  plot(gpk.exp)
}

These binaries (installable software) and packages are in development.
They may not be fully stable and should be used with caution. We make no claims about them.