AutoBayes: Automated Bayesian Graph Exploration for Nuisance-Robust Inference
Demir, Andac, Koike-Akino, Toshiaki, Wang, Ye, Erdogmus, Deniz
Learning data representations that capture task-related features, but are invariant to nuisance variations remains a key challenge in machine learning. We introduce an automated Bayesian inference framework, called AutoBayes, that explores different graphical models linking classifier, encoder, decoder, estimator and adversary network blocks to optimize nuisance-invariant machine learning pipelines. AutoBayes also enables learning disentangled representations, where the latent variable is split into multiple pieces to impose different relation with nuisance variation and task labels. We benchmark the framework on several public datasets, where we have access to subject and class labels during training, and provide analysis of its capability for subject-transfer learning with/without variational modeling and adversarial training. We demonstrate a significant performance improvement by ensemble stacking across explored graphical models.
Oct-5-2020
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