knitr::opts_chunk$set( collapse = TRUE, comment = "#>", echo = TRUE, results = 'hold', warning=F, cache=F, #dev = 'pdf', message=F, fig.width=5, fig.height=5, tidy.opts=list(width.cutoff=75), tidy=FALSE ) old <- options(scipen = 1, digits = 4)
library(GPFDA) require(MASS)
We simulate $30$ independent realisations from a zero-mean GP with a covariance function given by the sum of a liner kernel and a squared exponential kernel. Each observed curve has a sample size of $15$ time points on $[0,1]$.
set.seed(123) nrep <- 30 n <- 15 input <- seq(0, 1, length.out=n) hp <- list('linear.a'=log(40), 'linear.i'=log(10), 'pow.ex.v'=log(5), 'pow.ex.w'=log(15), 'vv'=log(0.3)) Sigma <- cov.linear(hyper=hp, input=input) + cov.pow.ex(hyper=hp, input=input, gamma=2) + diag(exp(hp$vv), n, n) Y <- t(mvrnorm(n=nrep, mu=rep(0,n), Sigma=Sigma))
Estimation of the GPR model can be carried out without using gradient:
set.seed(111) fitNoGrad <- gpr(input=input, response=Y, Cov=c('linear','pow.ex'), gamma=2, trace=4, nInitCandidates = 1, useGradient = F)
If one wants to use gradient:
set.seed(111) fit <- gpr(input=input, response=Y, Cov=c('linear','pow.ex'), gamma=2, trace=4, nInitCandidates = 1, useGradient = T)
Note the smaller number of iterations needed when the gradient analytical expressions are used in the optimisation.
We can see that the hyperparameter estimates are very accurate despite the fairly small sample size:
sapply(fit$hyper, exp)
The fitted model for the $10$th realisation can be seen:
plot(fit, realisation=10)
Predictions on a fine grid for the $10$th realisation can be obtained as follows:
inputNew <- seq(0, 1, length.out = 1000) pred1 <- gprPredict(train=fit, inputNew=inputNew, noiseFreePred=T) plot(pred1, realisation=10)
If one wants to include noise variance in the predictions for the new time points:
pred2 <- gprPredict(train=fit, inputNew=inputNew, noiseFreePred=F) plot(pred2, realisation=10)
options(old)
Any scripts or data that you put into this service are public.
Add the following code to your website.
For more information on customizing the embed code, read Embedding Snippets.