Discriminative Semi-Supervised Feature Selection via Manifold Regularization

Feature selection can be conducted in a supervised or unsupervised manner, in terms of whether the label information We consider the problem of semi-supervised feature is utilized to guide the selection of relevant features. Generally, selection, where we are given a small amount supervised feature selection methods require a large of labeled examples and a large amount of unlabeled amount of labeled training data. It however could fail to identify examples. Since a small number of labeled the relevant features that are discriminative to different samples are usually insufficient for identifying the classes, provided the number of labeled samples is small. On relevant features, the critical problem arising from the other hand, while unsupervised feature selection methods semi-supervised feature selection is how to take could work well with unlabeled training data, they ignore advantage of the information underneath the unlabeled the label information and therefore are often unable to identify data. To address this problem, we propose the discriminative features. Given the high cost in manually a novel discriminative semi-supervised feature labeling data, and at the same time abundant unlabeled selection method based on the idea of manifold data are often easily accessible, it is desirable to develop feature regularization. The proposed method selects selection methods that are capable of exploiting both labeled features through maximizing the classification margin and unlabeled data.