Vincent Grari scite author profile

Vincent Grari

5Publications

69Citation Statements Received

19Citation Statements Given

How they've been cited

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Affiliations

AXA (France), Université Paris Cité

Publications

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Fair Adversarial Gradient Tree Boosting

Grari¹,

Ruf²,

Lamprier³

et al. 2019

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Fair classification has become an important topic in machine learning research. While most bias mitigation strategies focus on neural networks, we noticed a lack of work on fair classifiers based on decision trees even though they have proven very efficient. In an up-to-date comparison of state-ofthe-art classification algorithms in tabular data, tree boosting outperforms deep learning [1]. For this reason, we have developed a novel approach of adversarial gradient tree boosting. The objective of the algorithm is to predict the output Y with gradient tree boosting while minimizing the ability of an adversarial neural network to predict the sensitive attribute S. The approach incorporates at each iteration the gradient of the neural network directly in the gradient tree boosting. We empirically assess our approach on 4 popular data sets and compare against state-ofthe-art algorithms. The results show that our algorithm achieves a higher accuracy while obtaining the same level of fairness, as measured using a set of different common fairness definitions.

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Achieving Fairness with Decision Trees: An Adversarial Approach

Grari¹,

Ruf²,

Lamprier³

et al. 2020

Data Sci. Eng.

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Fair classification has become an important topic in machine learning research. While most bias mitigation strategies focus on neural networks, we noticed a lack of work on fair classifiers based on decision trees even though they have proven very efficient. In an up-to-date comparison of state-of-the-art classification algorithms in tabular data, tree boosting outperforms deep learning (Zhang et al. in Expert Syst Appl 82:128–150, 2017). For this reason, we have developed a novel approach of adversarial gradient tree boosting. The objective of the algorithm is to predict the output Y with gradient tree boosting while minimizing the ability of an adversarial neural network to predict the sensitive attribute S. The approach incorporates at each iteration the gradient of the neural network directly in the gradient tree boosting. We empirically assess our approach on four popular data sets and compare against state-of-the-art algorithms. The results show that our algorithm achieves a higher accuracy while obtaining the same level of fairness, as measured using a set of different common fairness definitions.

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A fair pricing model via adversarial learning

Grari¹,

Charpentier²,

Lamprier³

et al. 2022

Preprint

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Learning Unbiased Representations via Rényi Minimization

Grari¹,

Hajouji²,

Lamprier³

et al. 2021

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Fairness-Aware Neural Rényi Minimization for Continuous Features

Grari

Lamprier

Detyniecki

2020

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The past few years have seen a dramatic rise of academic and societal interest in fair machine learning. While plenty of fair algorithms have been proposed recently to tackle this challenge for discrete variables, only a few ideas exist for continuous ones. The objective in this paper is to ensure some independence level between the outputs of regression models and any given continuous sensitive variables. For this purpose, we use the Hirschfeld-Gebelein-Rényi (HGR) maximal correlation coefficient as a fairness metric. We propose to minimize the HGR coefficient directly with an adversarial neural network architecture. The idea is to predict the output Y while minimizing the ability of an adversarial neural network to find the estimated transformations which are required to predict the HGR coefficient. We empirically assess and compare our approach and demonstrate significant improvements on previously presented work in the field.

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Vincent Grari

Fair Adversarial Gradient Tree Boosting

Achieving Fairness with Decision Trees: An Adversarial Approach

A fair pricing model via adversarial learning

Learning Unbiased Representations via Rényi Minimization

Fairness-Aware Neural Rényi Minimization for Continuous Features

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