Estimating the Optimal Margins of Embeddings in Euclidian Half Spaces.
Abstract. Concept classes can canonically be represented by matrices with entries 1 and -1. We use the singular value decomposition of this matrix to determine the optimal margins of embeddings of the concept classes of singletons and of half intervals in homogeneous Euclidean half spaces. For these concept classes the singular value decomposition can be used to construct optimal embeddings and also to prove the corresponding best possible upper bounds on the margin. We show that the optimal margin for embedding n singletons is \frac{n}{3n-4} and that the optimal margin for half intervals over {1,...,n} is \frac{\pi}{2 \ln n} + \Theta \Big( \frac{1}{(\ln n)^2} \Big). For the upper bounds on the margins we generalize a bound given in [6]. We also discuss the concept classes of monomials to point out limitations of our approach.