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I am trying to understand this example related to svm http://www.mathworks.com/help/bioinfo/ref/svmclassify.html

I ran the example taking iris data and plotted the svm as given in the example. However, when I view the support vectors in the svmstruct, I get lots of new values. AFAIK, support vectors should be the samples themselves, the ones that lie on the margin. However when I print svmStruct.SupportVectors I get different values like

-0.0073   -0.4143
   -0.3706   -0.4143
   -0.2495   -0.1789
   -0.1284    0.2919
   -0.0073   -0.4143
   -0.1284   -0.6498
    0.1139    0.0565
    0.2350   -0.1789
   -0.4918   -0.1789
   -0.2495   -0.4143
   -0.4918    0.0565
    0.1139   -0.4143
   -0.0073    0.2919
   -0.1284    0.2919
   -0.0073    0.2919
    0.2350   -0.4143
    0.8406   -0.6498
   -0.1284    0.2919
    0.2350    0.2919

These are not among the sample points. Any clarification

Also I tried to run my own example and this is what I got.

I don't understand the separating boundary lies exactly on one of the sample points. I don't think that is the best hyperplane. It should have defined some decision boundary somewhat lower I guess. Also it has circled the support vectors and I am not sure those should be the support vectors. The strangest thing is the margin from the hyperplane to the point is not greater. Why is it so?

enter image description here

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2 Answers 2

I don't know mathworks at all, but according to your link you use the svmtrain() function (described here):

SupportVectors — Matrix of data points with each row corresponding to a support vector in the normalized data space. This matrix is a subset of the Training input data matrix, after normalization has been applied according to the 'AutoScale' argument.

So you datapoints just get normalized. Try setting autoscale=false.

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Yes, snøreven is right. I just make it more general:

Every ML problem has two stages: 1. train model 2. testing/using of the trained model. Even better is if you have three stages: 1. training model, 2. evaluate model (is it good enough for my purposes) 3. testing/using it.

Very short and basic introduction to ML: www.cs.nyu.edu/~mohri/mlu/mlu_lecture_1.pdf, ML course: https://www.coursera.org/course/ml

In your particular case, you need to train a model for SVM classification in Matlab and then you can use it through svmclassify function

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