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OTCE: A Transferability Metric for Cross-Domain Cross-Task Representations

Tan Yang, Yang Li, Shao‐Lun Huang

202154 citationsDOI

Abstract

Transfer learning across heterogeneous data distributions (a.k.a. domains) and distinct tasks is a more general and challenging problem than conventional transfer learning, where either domains or tasks are assumed to be the same. While neural network based feature transfer is widely used in transfer learning applications, finding the optimal transfer strategy still requires time-consuming experiments and domain knowledge. We propose a transferability metric called Optimal Transport based Conditional Entropy (OTCE), to analytically predict the transfer performance for supervised classification tasks in such cross-domain and cross-task feature transfer settings. Our OTCE score characterizes transferability as a combination of domain difference and task difference, and explicitly evaluates them from data in a unified framework. Specifically, we use optimal transport to estimate domain difference and the optimal coupling between source and target distributions, which is then used to derive the conditional entropy of the target task (task difference). Experiments on the largest cross-domain dataset DomainNet and Office31 demonstrate that OTCE shows an average of 21% gain in the correlation with the ground truth transfer accuracy compared to state-of-the-art methods. We also investigate two applications of the OTCE score including source model selection and multi-source feature fusion.

Topics & Concepts

Transfer of learningComputer scienceArtificial intelligenceEntropy (arrow of time)Cross entropyMachine learningMetric (unit)TransferabilityTransfer entropyConditional entropyMulti-task learningTask (project management)Domain (mathematical analysis)Pattern recognition (psychology)Principle of maximum entropyMathematicsQuantum mechanicsEconomicsOperations managementPhysicsMathematical analysisManagementLogitDomain Adaptation and Few-Shot LearningMachine Learning and ELMAdvanced Neural Network Applications