Class Anchor Clustering: a Distance-based Loss for Training Open Set Classifiers

Existing open set classifiers distinguish between known and unknown inputs by measuring distance in a network's logit space, assuming that known inputs cluster closer to the training data than unknown inputs. However, this approach is typically applied post-hoc to networks trained with cross-entropy loss, which neither guarantees nor encourages the hoped-for clustering behaviour. To overcome this limitation, we introduce Class Anchor Clustering (CAC) loss. CAC is an entirely distance-based loss that explicitly encourages training data to form tight clusters around class-dependent anchor points in the logit space. We show that an open set classifier trained with CAC loss outperforms all state-of-the-art techniques on the challenging TinyImageNet dataset, achieving a 2.4% performance increase in AUROC. In addition, our approach outperforms other state-of-the-art distance-based approaches on a number of further relevant datasets. We will make the code for CAC publicly available.