A New Approximate Maximal Margin Classification Algorithm (Kernel Machines Section)

A new incremental learning algorithm is described which approximates the maximal margin hyperplane w.r.t. norm p ≥ 2 for a set of linearly separable data. Our algorithm, called ALMA_ p (Approximate Large Margin algorithm w.r.t. norm p ), takes O( (p-1) / (α 2 γ 2 ) ) corrections to separate the data with p -norm margin larger than (1-α)γ, where g is the (normalized) p -norm margin of the data. ALMA_ p avoids quadratic (or higher-order) programming methods. It is very easy to implement and is as fast as on-line algorithms, such as Rosenblatt's Perceptron algorithm. We performed extensive experiments on both real-world and artificial datasets. We compared ALMA_2 (i.e., ALMA_ p with p = 2 ) to standard Support vector Machines (SVM) and to two incremental algorithms: the Perceptron algorithm and Li and Long's ROMMA. The accuracy levels achieved by ALMA_2 are superior to those achieved by the Perceptron algorithm and ROMMA, but slightly inferior to SVM's. On the other hand, ALMA_2 is quite faster and easier to implement than standard SVM training algorithms. When learning sparse target vectors, ALMA_ p with p > 2 largely outperforms Perceptron-like algorithms, such as ALMA_2.

Authors

• Claudio Gentile

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