Feature subspace SVMs (FS-SVMs) for high dimensional handwritten digit recognition (Q1046605)

Summary: Training SVMs on high dimensional feature vectors in one shot incurs high computational cost. A low dimensional representation reduces computational overhead and improves the classification speed. Low dimensionality also reduces the risk of over-fitting and tends to improve the generalisation ability of classification algorithms. For many important applications, the dimensionality may remain prohibitively high despite feature selection. In this paper, we address these issues primarily in the context of handwritten digit data. In particular, we make the following contributions: (1) we introduce the \(\alpha \)-minimum feature over (\(\alpha \)-MFC) problem and prove it to be NP-hard; (2) investigate the efficacy of a divide-and-conquer ensemble method for SVMs based on segmentation of the feature space (FS-SVMs); 3) propose a greedy algorithm for finding an approximate \(\alpha \)-MFC using FS-SVMs.