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I'm working on a very big data-set.(csv)

The data set is composed from both numeric and categorical columns.

One of the columns is my "target column" , meaning i want to use the other columns to determine which value (out of 3 possible known values) is likely to be in the "target column". In the end check my classification vs the real data.

My question:

I'm using R.

I am trying to find a way to select the subset of features which give the best classifiation. going over all the subsets is impossible.

Does anyone know an algorithm or can think of a way do it on R?

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Please give an example of your data frame, e.g. with head(df) or dput(df[1:10,]). Without, a recommendation for a algorithm that returns random values would be just as good as any other. :p –  MrGumble May 24 '13 at 6:30
    
If you have a lot of variables and you want a parsimoneous model then use elasticnet (lasso, ridge) and the R package glmnet. –  dickoa May 24 '13 at 7:26
    
head(df) and dput() gives mush more output than is possible to place here. basically the dats is set is 115,910 lines and 87 columns, part numeric and part categorical. –  mosh May 24 '13 at 9:16

1 Answer 1

This seems to be a classification problem. Without knowing the amount of covariates you have for your target, can't be sure, but wouldn't a neural network solve your problem?

You could use the nnet package, which uses a Feed-forward neural network and works with multiple classes. Having categorical columns is not a problem since you could just use factors.

Without a datasample I can only explain it just a bit, but mainly using the function:

newNet<-nnet(targetColumn~ . ,data=yourDataset, subset=yourDataSubset [..and more values]..)

You obtain a trained neural net. What is also important here is the size of the hidden layer which is a tricky thing to get right. As a rule of thumb it should be roughly 2/3 of the amount of imputs + amount of outputs (3 in your case).

Then with:

myPrediction <- predict(newNet, newdata=yourDataset(with the other subset))

You obtain the predicted values. About how to evaluate them, I use the ROCR package but currently only supports binary classification, I guess a google search will show some help.

If you are adamant about eliminate some of the covariates, using the cor() function may help you to identify the less caracteristic ones.

Edit for a step by step guide:

Lets say we have this dataframe:

str(df)
'data.frame':   5 obs. of  3 variables:
 $ a: num  1 2 3 4 5
 $ b: num  1 1.5 2 2.5 3
 $ c: Factor w/ 3 levels "blue","red","yellow": 2 2 1 2 3

The column c has 3 levels, that is, 3 type of values it can take. This is something done by default by a dataframe when a column has strings instead of numerical values.

Now, using the columns a and b we want to predict which value c is going to be. Using a neural network. The nnet package is simple enough for this example. If you don't have it installed, use:

install.packages("nnet")

Then, to load it:

require(nnet)

after this, lets train the neural network with a sample of the data, for that, the function

portion<-sample(1:nrow(df),0.7*nrow(df))

will store in portion, 70% of the rows from the dataframe. Now, let's train that net! I recommend you to check the documentation for the nnet package with ?nnet for a deeper knowledge. Using only basics:

myNet<-nnet( c~ a+b,data=df,subset=portion,size=1)

c~ a+b is the formula for the prediction. You want to predict the column c using the columns a and b data= means the data origin, in this case, the dataframe df subset= self explanatory size= the size of the hidden layer, as I said, use about 2/3 of the total columns(a+b) + total outputs(1)

We have trained net now, lets use it.

Using predict you will use the trained net for new values.

newPredictedValues<-predict(myNet,newdata=df[-portion,])

After that, newPredictedValues will have the predictions.

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thanks for the answer but i guess i should have said that i'm very new to R- Basically learning it from scratch. (Even actions such as converting columns on the data set to factors are challenging). That is my most of the answer is beyond me. More than just a solution to the described problem, i am in need of one that is relatively easy to implement. sorry for not mentioned it before, is there a "friendlier" way to do it? –  mosh May 24 '13 at 8:35
    
This is actually a easy approach even with all that jumbo-words, I'm also quite new to R but I've been tinkering a bit. I'll try to edit the comment for a more step-by-step guide. –  Rwak May 24 '13 at 8:44
    
glad to hear. thanks a lot. –  mosh May 24 '13 at 9:13
    
Edited now, just let me know if is still not understandable, explaining myself is not one of my best assets... –  Rwak May 24 '13 at 9:33
    
o.k, i tried to use it and some questions do raise: 1. technical issue: runing -sample resulted in an error: "Error in -sample : invalid argument to unary operator." I omitted the "-sample" and used newPredictedValues<-predict(myNet,newdata=df) just to get the feeling of how the output looks like. 2. The results left me quite baffled, a table with cells values between 0 and 1. I'm not sure what am I to make of it, and not sure if it got me closer to solve the question: which subset of features is best for classification. thanks for your patience. –  mosh May 24 '13 at 12:06

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