Risk Variance Penalization: From Distributional Robustness to Causality

06/13/2020
by   Chuanlong Xie, et al.
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Learning under multi-environments often requires the ability of out-of-distribution generalization for the worst-environment performance guarantee. Some novel algorithms, e.g. Invariant Risk Minimization and Risk Extrapolation, build stable models by extracting invariant (causal) feature. However, it remains unclear how these methods learn to remove the environmental features. In this paper, we focus on the Risk Extrapolation (REx) and make attempts to fill this gap. We first propose a framework, Quasi-Distributional Robustness, to unify the Empirical Risk Minimization (ERM), the Robust Optimization (RO) and the Risk Extrapolation. Then, under this framework, we show that, comparing to ERM and RO, REx has a much larger robust region. Furthermore, based on our analysis, we propose a novel regularization method, Risk Variance Penalization (RVP), which is derived from REx. The proposed method is easy to implement, and has proper degree of penalization, and enjoys an interpretable tuning parameter. Finally, our experiments show that under certain conditions, the regularization strategy that encourages the equality of training risks has ability to discover relationships which do not exist in the training data. This provides important evidence to support that RVP is useful to discover causal models.

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