Abstract
The multisource universal domain adaptation (MSUDA) relaxes the constraints between the source and target domains, enabling the transfer of knowledge between domains without any restrictions on the number of source domains and the existence of unknown (private) categories. However, identifying the unknown samples in the target domain is extremely challenging since there are no available samples with the same label in source domains. Another immense challenge lies in extracting domain-invariant features for knowledge transfer since there are distribution discrepancies between each source and target domain. In this article, we propose the multirepresentation DA network (MRDAN) to classify the unlabeled targets by harnessing multiple source domains with nonidentical label sets. First, we propose a threshold-free conflict-based predictions with uncertainty (CPU) module, which comprehensively mines the complementary knowledge from different source domains to identify both known and unknown samples simultaneously. To accurately extract the domain-invariant features for recognizing known and unknown samples, a multilevel distribution alignment (MLDA) strategy is introduced to decrease the distribution discrepancy between multiple domains with nonidentical category spaces progressively. Finally, comprehensive experiments conducted on three commonly used datasets demonstrate the effectiveness of the proposed MRDAN in recognizing both known and unknown samples.
