A few implementation details for a Support-Vector Machine (SVM)

claws picture claws · Aug 10, 2010 · Viewed 8.6k times · Source

In a particular application I was in need of machine learning (I know the things I studied in my undergraduate course). I used Support Vector Machines and got the problem solved. Its working fine.

Now I need to improve the system. Problems here are

  1. I get additional training examples every week. Right now the system starts training freshly with updated examples (old examples + new examples). I want to make it incremental learning. Using previous knowledge (instead of previous examples) with new examples to get new model (knowledge)

  2. Right my training examples has 3 classes. So, every training example is fitted into one of these 3 classes. I want functionality of "Unknown" class. Anything that doesn't fit these 3 classes must be marked as "unknown". But I can't treat "Unknown" as a new class and provide examples for this too.

  3. Assuming, the "unknown" class is implemented. When class is "unknown" the user of the application inputs the what he thinks the class might be. Now, I need to incorporate the user input into the learning. I've no idea about how to do this too. Would it make any difference if the user inputs a new class (i.e.. a class that is not already in the training set)?

Do I need to choose a new algorithm or Support Vector Machines can do this?

PS: I'm using libsvm implementation for SVM.

Answer

doug picture doug · Aug 10, 2010

I just wrote my Answer using the same organization as your Question (1., 2., 3).

  1. Can SVMs do this--i.e., incremental learning? Multi-Layer Perceptrons of course can--because the subsequent training instances don't affect the basic network architecture, they'll just cause adjustment in the values of the weight matrices. But SVMs? It seems to me that (in theory) one additional training instance could change the selection of the support vectors. But again, i don't know.

  2. I think you can solve this problem quite easily by configuring LIBSVM in one-against-many--i.e., as a one-class classifier. SVMs are one-class classifiers; application of an SVM for multi-class means that it has been coded to perform multiple, step-wise one-against-many classifications, but again the algorithm is trained (and tested) one class at a time. If you do this, then what's left after step-wise execution against the test set, is "unknown"--in other words, whatever data is not classified after performing multiple, sequential one-class classifications, is by definition in that 'unknown' class.

  3. Why not make the user's guess a feature (i.e., just another dependent variable)? The only other option is to make it the class label itself, and you don't want that. So you would, for instance, add a column to your data matrix "user class guess", and just populate it with some value most likely to have no effect for those data points not in the 'unknown' category and therefore for which the user will not offer a guess--this value could be '0' or '1', but really it depends on how you have your data scaled and normalized).