A Transductive Multi-Head Model for Cross-Domain Few-Shot Learning
This work addresses few-shot learning in cross-domain settings, which is an incremental advancement for applications requiring adaptation to new domains with limited data.
The paper tackles the Cross-Domain Few-Shot Learning challenge by introducing a transductive multi-head model that extends existing methods with a semantic classifier and data augmentation, achieving significant performance improvements over fine-tuning baselines across four target domains.
In this paper, we present a new method, Transductive Multi-Head Few-Shot learning (TMHFS), to address the Cross-Domain Few-Shot Learning (CD-FSL) challenge. The TMHFS method extends the Meta-Confidence Transduction (MCT) and Dense Feature-Matching Networks (DFMN) method [2] by introducing a new prediction head, i.e, an instance-wise global classification network based on semantic information, after the common feature embedding network. We train the embedding network with the multiple heads, i.e,, the MCT loss, the DFMN loss and the semantic classifier loss, simultaneously in the source domain. For the few-shot learning in the target domain, we first perform fine-tuning on the embedding network with only the semantic global classifier and the support instances, and then use the MCT part to predict labels of the query set with the fine-tuned embedding network. Moreover, we further exploit data augmentation techniques during the fine-tuning and test stages to improve the prediction performance. The experimental results demonstrate that the proposed methods greatly outperform the strong baseline, fine-tuning, on four different target domains.