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Abstract:
Fairness for Machine Learning has received considerable attention, recently. Various mathematical formulations of fairness have been proposed, and it has been shown that it is impossible to satisfy all of them simultaneously. The literature so far has dealt with these impossibility results by quantifying the tradeoffs between different formulations of fairness. Our work takes a different perspective on this issue. Rather than requiring all notions of fairness to (partially) hold at the same time, we ask which one of them is the most appropriate given the societal domain in which the decision-making model is to be deployed. We take a descriptive approach and set out to identify the notion of fairness that best captures lay people’s perception of fairness. We run adaptive experiments designed to pinpoint the most compatible notion of fairness with each participant’s choices through a small number of tests. Perhaps surprisingly, we find that the most simplistic mathematical definition of fairness—namely, demographic parity—most closely matches people’s idea of fairness in two distinct application scenarios. This remains the case even when we explicitly tell the participants about the alternative, more complicated definitions of fairness and we reduce the cognitive burden of evaluating those notions for them. Our findings have important implications for the Fair ML literature and the discourse on formalizing algorithmic fairness.
Reference:
Mathematical Notions vs. Human Perception of Fairness: A Descriptive Approach to Fairness for Machine Learning M. Srivastava, H. Heidari, A. KrauseIn Proceedings of the International Conference on Knowledge Discovery and Data Mining (KDD), 2019
Bibtex Entry:
@inproceedings{srivastava2019mathematical,
title = {Mathematical Notions vs. Human Perception of Fairness: A Descriptive Approach to Fairness for Machine Learning},
author = {Megha Srivastava and Hoda Heidari and Andreas Krause},
Booktitle = {Proceedings of the International Conference on Knowledge Discovery and Data Mining (KDD)},
year = {2019},
month = {August}}