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Perhaps this is an easy question, but I want to make sure I understand the conceptual basis of the LibSVM implementation of one-class SVMs and if what I am doing is permissible.

I am using one class SVMs in this case for outlier detection and removal. This is used in the context of a greater time series prediction model as a data preprocessing step. That said, I have a Y vector (which is the quantity we are trying to predict and is continuous, not class labels) and an X matrix (continuous features used to predict). Since I want to detect outliers in the data early in the preprocessing step, I have yet to normalize or lag the X matrix for use in prediction, or for that matter detrend/remove noise/or otherwise process the Y vector (which is already scaled to within [-1,1]). My main question is whether it is correct to model the one class SVM like so (using libSVM):

svmod = svmtrain(ones(size(Y,1),1),Y,'-s 2 -t 2 -g 0.00001 -n 0.01');
[od,~,~] = svmpredict(ones(size(Y,1),1),Y,svmod);

The resulting model does yield performance somewhat in line with what I would expect (99% or so prediction accuracy, meaning 1% of the observations are outliers). But why I ask is because in other questions regarding one class SVMs, people appear to be using their X matrices where I use Y. Thanks for your help.

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What you are doing here is nothing more than a fancy range check. If you are not willing to use X to find outliers in Y (even though you really should), it would be a lot simpler and better to just check the distribution of Y to find outliers instead of this improvised SVM solution (for example remove the upper and lower 0.5-percentiles from Y).

In reality, this is probably not even close to what you really want to do. With this setup you are rejecting Y values as outliers without considering any context (e.g. X). Why are you using RBF and how did you come up with that specific value for gamma? A kernel is total overkill for one-dimensional data.

Secondly, you are training and testing on the same data (Y). A kitten dies every time this happens. One-class SVM attempts to build a model which recognizes the training data, it should not be used on the same data it was built with. Please, think of the kittens.


Additionally, note that the nu parameter of one-class SVM controls the amount of outliers the classifier will accept. This is explained in the LIBSVM implementation document (page 4): It is proved that nu is an upper bound on the fraction of training errors and a lower bound of the fraction of support vectors. In other words: your training options specifically state that up to 1% of the data can be rejected. For one-class SVM, replace can by should.

So when you say that the resulting model does yield performance somewhat in line with what I would expect ... ofcourse it does, by definition. Since you have set nu=0.01, 1% of the data is rejected by the model and thus flagged as an outlier.

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