Miriam Rateike scite author profile

Miriam Rateike

3Publications

11Citation Statements Received

52Citation Statements Given

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Affiliations

Saarland University, Max Planck Institute for Intelligent Systems

Publications

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Don’t Throw it Away! The Utility of Unlabeled Data in Fair Decision Making

Rateike

Majumdar

Mineeva

et al. 2022

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Decision making algorithms, in practice, are often trained on data that exhibits a variety of biases. Decision-makers often aim to take decisions based on some ground-truth target that is assumed or expected to be unbiased, i.e., equally distributed across socially salient groups. In many practical settings, the ground-truth cannot be directly observed, and instead, we have to rely on a biased proxy measure of the ground-truth, i.e., biased labels, in the data. In addition, data is often selectively labeled, i.e., even the biased labels are only observed for a small fraction of the data that received a positive decision. To overcome label and selection biases, recent work proposes to learn stochastic, exploring decision policies via i) online training of new policies at each time-step and ii) enforcing fairness as a constraint on performance. However, the existing approach uses only labeled data, disregarding a large amount of unlabeled data, and thereby suffers from high instability and variance in the learned decision policies at different times. In this paper, we propose a novel method based on a variational autoencoder for practical fair decision-making. Our method learns an unbiased data representation leveraging both labeled and unlabeled data and uses the representations to learn a policy in an online process. Using synthetic data, we empirically validate that our method converges to the optimal (fair) policy according to the ground-truth with low variance. In real-world experiments, we further show that our training approach not only offers a more stable learning process but also yields policies with higher fairness as well as utility than previous approaches.

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VACA: Design of Variational Graph Autoencoders for Interventional and Counterfactual Queries

Sánchez‐Martín¹,

Rateike²,

Valera³

2021

Preprint

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In this paper, we introduce VACA, a novel class of variational graph autoencoders for causal inference in the absence of hidden confounders, when only observational data and the causal graph are available. Without making any parametric assumptions, VACA mimics the necessary properties of a Structural Causal Model (SCM) to provide a flexible and practical framework for approximating interventions (do-operator) and abduction-action-prediction steps. As a result, and as shown by our empirical results, VACA accurately approximates the interventional and counterfactual distributions on diverse SCMs. Finally, we apply VACA to evaluate counterfactual fairness in fair classification problems, as well as to learn fair classifiers without compromising performance.

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VACA: Designing Variational Graph Autoencoders for Causal Queries

Sánchez-Martin

Rateike

Valera

2022

AAAI

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Miriam Rateike

Don’t Throw it Away! The Utility of Unlabeled Data in Fair Decision Making

VACA: Design of Variational Graph Autoencoders for Interventional and Counterfactual Queries

VACA: Designing Variational Graph Autoencoders for Causal Queries

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