I'm still pretty new to R and AI / ML techniques. I would like to use a neural net for prediction, and since I'm new I would just like to see if this is how it should be done.

As a test case, I'm predicting values of sin(), based on 2 previous values. For training I create a data frame withy = sin(x), x1 = sin(x-1), x2 = sin(x-2), then use the formula y ~ x1 + x2.

It seems to work, but I am just wondering if this is the right way to do it, or if there is a more idiomatic way.

This is the code:

require(quantmod) #for Lag()
x <- seq(0, 20, 0.1)
y <- sin(x)
te <- data.frame(y, Lag(y), Lag(y,2))
names(te) <- c("y", "x1", "x2")
p <- nnet(y ~ x1 + x2, data=te, linout=TRUE, size=10)
ps <- predict(p, x1=y)
plot(y, type="l")
lines(ps, col=2)



Is this better for the predict call?

t2 <- data.frame(sin(x), Lag(sin(x)))
names(t2) <- c("x1", "x2")
vv <- predict(p, t2)

I guess I'd like to see that the nnet is actually working by looking at its predictions (which should approximate a sin wave.)

  • The predict() call looks suspicious. Aren't you just predicting 'y' with 'y'? On the other hand it might be failing to actually be supplying newdata, since it is not a dataframe. So you would just be "predicting" with the lagged values in 'te'. You might look at expand to avoid needing "pkg:quantmod" – IRTFM Oct 12 '11 at 17:16
  • i added a better example for predicting, do you think that would be actually using the nnet model? it seems to give a sin when plotted – dizzy Oct 12 '11 at 17:34
  • You can check by plotting the original on the same scale as the predicted: plot(x, vv); lines(x, y) and you see there is a lag (which it seems you would expect.) – IRTFM Oct 12 '11 at 18:32
  • An example in here about R + DNN for better understand. – Patric Feb 22 '16 at 4:02

I really like the caret package, as it provides a nice, unified interface to a variety of models, such as nnet. Furthermore, it automatically tunes hyperparameters (such as size and decay) using cross-validation or bootstrap re-sampling. The downside is that all this re-sampling takes some time.

#Load Packages
require(quantmod) #for Lag()

#Make toy dataset
y <- sin(seq(0, 20, 0.1))
te <- data.frame(y, x1=Lag(y), x2=Lag(y,2))
names(te) <- c("y", "x1", "x2")

#Fit model
model <- train(y ~ x1 + x2, te, method='nnet', linout=TRUE, trace = FALSE,
                #Grid of tuning parameters to try:
ps <- predict(model, te)

#Examine results
lines(ps, col=2)

It also predicts on the proper scale, so you can directly compare results. If you are interested in neural networks, you should also take a look at the neuralnet and RSNNS packages. caret can currently tune nnet and neuralnet models, but does not yet have an interface for RSNNS.

/edit: caret now has an interface for RSNNS. It turns out if you email the package maintainer and ask that a model be added to caret he'll usually do it!

/edit: caret also now supports Bayesian regularization for feed-forward neural networks from the brnn package. Furthermore, caret now also makes it much easier to specify your own custom models, to interface with any neural network package you like!

  • 5
    thanks very much, that looks great. Sorry for the delay in response somehow i missed the notification of a reply – dizzy Dec 9 '11 at 9:55
  • 4
    + Nice example. Your answer is first hit for search on '[r] nnet predict'. – IRTFM Jan 23 '13 at 19:56
  • 1
    @DWin Thanks! I'm glad to hear that! – Zach Jan 23 '13 at 21:14

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