Related papers: Non-linear Welfare-Aware Strategic Learning

Non-linear Welfare-Aware Strategic Learning

URL: http://arxiv.org/abs/2405.01810v2
Date: Tue, 13 Aug 2024 19:19:07 GMT
Title: Non-linear Welfare-Aware Strategic Learning
Authors: Tian Xie, Xueru Zhang,
Abstract summary: This paper studies algorithmic decision-making in the presence of strategic individual behaviors. We first generalize the agent best response model in previous works to the non-linear setting. We show the three welfare can attain the optimum simultaneously only under restrictive conditions.
Score: 10.448052192725168
License: http://creativecommons.org/licenses/by/4.0/
Abstract: This paper studies algorithmic decision-making in the presence of strategic individual behaviors, where an ML model is used to make decisions about human agents and the latter can adapt their behavior strategically to improve their future data. Existing results on strategic learning have largely focused on the linear setting where agents with linear labeling functions best respond to a (noisy) linear decision policy. Instead, this work focuses on general non-linear settings where agents respond to the decision policy with only "local information" of the policy. Moreover, we simultaneously consider the objectives of maximizing decision-maker welfare (model prediction accuracy), social welfare (agent improvement caused by strategic behaviors), and agent welfare (the extent that ML underestimates the agents). We first generalize the agent best response model in previous works to the non-linear setting, then reveal the compatibility of welfare objectives. We show the three welfare can attain the optimum simultaneously only under restrictive conditions which are challenging to achieve in non-linear settings. The theoretical results imply that existing works solely maximizing the welfare of a subset of parties inevitably diminish the welfare of the others. We thus claim the necessity of balancing the welfare of each party in non-linear settings and propose an irreducible optimization algorithm suitable for general strategic learning. Experiments on synthetic and real data validate the proposed algorithm.

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