Algorithmically Fair Maximization of Multiple Submodular Objective Functions

February 23, 2024 Β· Declared Dead Β· πŸ› Adaptive Agents and Multi-Agent Systems

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Authors Georgios Amanatidis, Georgios Birmpas, Philip Lazos, Stefano Leonardi, Rebecca ReiffenhΓ€user arXiv ID 2402.15155 Category cs.DS: Data Structures & Algorithms Cross-listed cs.GT, math.OC Citations 1 Venue Adaptive Agents and Multi-Agent Systems Last Checked 4 months ago
Abstract
Constrained maximization of submodular functions poses a central problem in combinatorial optimization. In many realistic scenarios, a number of agents need to maximize multiple submodular objectives over the same ground set. We study such a setting, where the different solutions must be disjoint, and thus, questions of algorithmic fairness arise. Inspired from the fair division literature, we suggest a simple round-robin protocol, where agents are allowed to build their solutions one item at a time by taking turns. Unlike what is typical in fair division, however, the prime goal here is to provide a fair algorithmic environment; each agent is allowed to use any algorithm for constructing their respective solutions. We show that just by following simple greedy policies, agents have solid guarantees for both monotone and non-monotone objectives, and for combinatorial constraints as general as $p$-systems (which capture cardinality and matroid intersection constraints). In the monotone case, our results include approximate EF1-type guarantees and their implications in fair division may be of independent interest. Further, although following a greedy policy may not be optimal in general, we show that consistently performing better than that is computationally hard.
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