[R] Training a model using glm

Max Kuhn mxkuhn at gmail.com
Wed Sep 17 20:51:01 CEST 2014


You have not shown all of your code and it is difficult to diagnose the
issue.

I assume that you are using the data from:

   library(AppliedPredictiveModeling)
   data(AlzheimerDisease)

If so, there is example code to analyze these data in that package. See
?scriptLocation.

We have no idea how you got to the `training` object (package versions
would be nice too).

I suspect that Dennis is correct. Try using more normal syntax without the
$ indexing in the formula. I wouldn't say it is (absolutely) wrong but it
doesn't look right either.

Max


On Wed, Sep 17, 2014 at 2:04 PM, Mohan Radhakrishnan <
radhakrishnan.mohan at gmail.com> wrote:

> Hi Dennis,
>
>                      Why is there that warning ? I think my syntax is
> right. Isn't it not? So the warning can be ignored ?
>
> Thanks,
> Mohan
>
> On Wed, Sep 17, 2014 at 9:48 PM, Dennis Murphy <djmuser at gmail.com> wrote:
>
> > No reproducible example (i.e., no data) supplied, but the following
> > should work in general, so I'm presuming this maps to the caret
> > package as well. Thoroughly untested.
> >
> > library(caret)    # something you failed to mention
> >
> > ...
> > modelFit <- train(diagnosis ~ ., data = training1)    # presumably a
> > logistic regression
> > confusionMatrix(test1$diagnosis, predict(modelFit, newdata = test1,
> > type = "response"))
> >
> > For GLMs, there are several types of possible predictions. The default
> > is 'link', which associates with the linear predictor. caret may have
> > a different syntax so you should check its help pages re the supported
> > predict methods.
> >
> > Hint: If a function takes a data = argument, you don't need to specify
> > the variables as components of the data frame - the variable names are
> > sufficient. You should also do some reading to understand why the
> > model formula I used is correct if you're modeling one variable as
> > response and all others in the data frame as covariates.
> >
> > Dennis
> >
> > On Tue, Sep 16, 2014 at 11:15 PM, Mohan Radhakrishnan
> > <radhakrishnan.mohan at gmail.com> wrote:
> > > I answered this question which was part of the online course correctly
> by
> > > executing some commands and guessing.
> > >
> > > But I didn't get the gist of this approach though my R code works.
> > >
> > > I have a training and test dataset.
> > >
> > >> nrow(training)
> > >
> > > [1] 251
> > >
> > >> nrow(testing)
> > >
> > > [1] 82
> > >
> > >> head(training1)
> > >
> > >    diagnosis    IL_11    IL_13    IL_16   IL_17E IL_1alpha      IL_3
> > > IL_4
> > >
> > > 6   Impaired 6.103215 1.282549 2.671032 3.637051 -8.180721 -3.863233
> > > 1.208960
> > >
> > > 10  Impaired 4.593226 1.269463 3.476091 3.637051 -7.369791 -4.017384
> > > 1.808289
> > >
> > > 11  Impaired 6.919778 1.274133 2.154845 4.749337 -7.849364 -4.509860
> > > 1.568616
> > >
> > > 12  Impaired 3.218759 1.286356 3.593860 3.867347 -8.047190 -3.575551
> > > 1.916923
> > >
> > > 13  Impaired 4.102821 1.274133 2.876338 5.731246 -7.849364 -4.509860
> > > 1.808289
> > >
> > > 16  Impaired 4.360856 1.278484 2.776394 5.170380 -7.662778 -4.017384
> > > 1.547563
> > >
> > >          IL_5       IL_6 IL_6_Receptor     IL_7     IL_8
> > >
> > > 6  -0.4004776  0.1856864   -0.51727788 2.776394 1.708270
> > >
> > > 10  0.1823216 -1.5342758    0.09668586 2.154845 1.701858
> > >
> > > 11  0.1823216 -1.0965412    0.35404039 2.924466 1.719944
> > >
> > > 12  0.3364722 -0.3987186    0.09668586 2.924466 1.675557
> > >
> > > 13  0.0000000  0.4223589   -0.53219115 1.564217 1.691393
> > >
> > > 16  0.2623643  0.4223589    0.18739989 1.269636 1.705116
> > >
> > > The testing dataset is similar with 13 columns. Number of rows vary.
> > >
> > >
> > > training1 <- training[,grepl("^IL|^diagnosis",names(training))]
> > >
> > > test1 <- testing[,grepl("^IL|^diagnosis",names(testing))]
> > >
> > > modelFit <- train(training1$diagnosis ~ training1$IL_11 +
> > training1$IL_13 +
> > > training1$IL_16 + training1$IL_17E + training1$IL_1alpha +
> > training1$IL_3 +
> > > training1$IL_4 + training1$IL_5 + training1$IL_6 +
> > training1$IL_6_Receptor
> > > + training1$IL_7 + training1$IL_8,method="glm",data=training1)
> > >
> > > confusionMatrix(test1$diagnosis,predict(modelFit, test1))
> > >
> > > I get this error when I run the above command to get the confusion
> > matrix.
> > >
> > > *'newdata' had 82 rows but variables found have 251 rows '*
> > >
> > > I thought this was simple. I train a model using the training dataset
> and
> > > predict using the test dataset and get the accuracy.
> > >
> > > Am I missing the obvious here ?
> > >
> > > Thanks,
> > >
> > > Mohan
> > >
> > >         [[alternative HTML version deleted]]
> > >
> > > ______________________________________________
> > > R-help at r-project.org mailing list
> > > https://stat.ethz.ch/mailman/listinfo/r-help
> > > PLEASE do read the posting guide
> > http://www.R-project.org/posting-guide.html
> > > and provide commented, minimal, self-contained, reproducible code.
> >
>
>         [[alternative HTML version deleted]]
>
> ______________________________________________
> R-help at r-project.org mailing list
> https://stat.ethz.ch/mailman/listinfo/r-help
> PLEASE do read the posting guide
> http://www.R-project.org/posting-guide.html
> and provide commented, minimal, self-contained, reproducible code.
>

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