Minimal-Entropy Correlation Alignment for Unsupervised Deep Domain Adaptation

Add code
Nov 28, 2017
Pietro Morerio, Jacopo Cavazza, Vittorio Murino
Figure 1 for Minimal-Entropy Correlation Alignment for Unsupervised Deep Domain Adaptation
Figure 2 for Minimal-Entropy Correlation Alignment for Unsupervised Deep Domain Adaptation
Figure 3 for Minimal-Entropy Correlation Alignment for Unsupervised Deep Domain Adaptation

Share this with someone who'll enjoy it:

Twitter IconFacebook IconLinkedin IconWhatsapp IconMessenger Icon

In this work, we face the problem of unsupervised domain adaptation with a novel deep learning approach which leverages on our finding that entropy minimization is induced by the optimal alignment of second order statistics between source and target domains. We formally demonstrate this hypothesis and, aiming at achieving an optimal alignment in practical cases, we adopt a more principled strategy which, differently from the current Euclidean approaches, deploys alignment along geodesics. Our pipeline can be implemented by adding to the standard classification loss (on the labeled source domain), a source-to-target regularizer that is weighted in an unsupervised and data-driven fashion. We provide extensive experiments to assess the superiority of our framework on standard domain and modality adaptation benchmarks.

View paper onarxiv iconopen_review iconOpenReview

Share this with someone who'll enjoy it:

Twitter IconFacebook IconLinkedin IconWhatsapp IconMessenger Icon