Envy-free Contracts with Subsidies

Abstract

We study algorithmic fair contract design, where a principal designs task-level contracts and fairly delegates a set of tasks to a set of agents. Prior work on this setting, particularly on envy-free (EF) contracts, either suffers from an unbounded price of fairness (PoF) or avoids this unboundedness by losing strict fairness. To address these limitations, we propose a novel scheme, called Envy-free Contracts with Subsidies (EFS), in which the principal may additionally offer agent-specific subsidies. We show that EFS contracts not only restore strict fairness, but can also outperform EF contracts by an arbitrarily large factor. Moreover, in sharp contrast to EF contracts, we prove that EFS contracts admit a tight nΘ(n) bound on the price of fairness, where n is the number of agents. We further show that computing optimal EFS contracts is NP-hard in general. Nevertheless, when the number of tasks is constant, we provide a polynomial-time algorithm for computing optimal EFS contracts.