I am using nnet for the first time, played with the basic examples found on the web, but cannot make out its output with a dummy toy data set. That a simple discrimination of two classes (signal and background) using 2 variables normally distributed.

The following code can be copy&paste in R (version 3.0):


## Signal
xs = rnorm( mean=0, sd=1, n=10000)
ys = rnorm( mean=1, sd=1, n=10000)
typs = rep( x=1, n=10000 )
sig = data.frame( typs, xs, ys )
colnames(sig) = c("z","x","y")
sig_train = sig[c(1:5000),]
sig_test = sig[c(5001:10000),]

## Background
xb = rnorm( mean=1, sd=1, n=10000)
yb = rnorm( mean=0, sd=1, n=10000)
typb = rep( x=-1, n=10000 )
bkg = data.frame( typb, xb, yb )
colnames(bkg) = c("z","x","y")
bkg_train = bkg[c(1:5000),]
bkg_test = bkg[c(5001:10000),]

## Training
trainData = rbind( sig_train, bkg_train )
nnRes = nnet( z ~ ., trainData, size = 2, rang = 0.5, maxit = 100)

## Testing
sigNNPred = predict(nnRes, sig_test )
bkgNNPred = predict(nnRes, bkg_test )

When looking at sigNNPred I have only zero's!

So either the configuration of my NN is not performant, or I am looking at the wrong thing.

Any hint is welcome.

Thanks in advance,


  • Code not running: Error in eval(expr, envir, enclos) : object 'trainData' not found – Baumann Feb 14 '14 at 20:29
  • And what is z in the nnet formula? – Baumann Feb 14 '14 at 20:31
  • I corrected the code, so the 2 discriminating variables are 'x' and 'y', 'z' being the class variable for the learning phase. – Xavier Prudent Feb 14 '14 at 20:44
  • Try predict(nnRes, sig_test, type = 'class'). – Fernando Feb 14 '14 at 20:50
  • I get then Error in predict.nnet(nnRes, sig_test, type = "class") : inappropriate fit for class even when making 'z' a factor through as.factor(rep) – Xavier Prudent Feb 14 '14 at 21:17

There is a misconception about the target values (in your case, the column 'z'). If you want to do classification, you either have to convert the target column to a factor or you have to use 0/1 instead of -1/1. Otherwise, the -1 values are far outside the possible range of the activation function (unless you use linout=TRUE, which makes little sense for classification).

I tried your code with z being a factor and, as suggested by Fernando earlier, type='class' when calling predict: works nicely now, though your two classes overlap way too much to allow for a decent classification accuracy.

Cheers, UBod

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