Abstract:
Equitable allocation of indivisible items involves partitioning the items among agents such that everyone derives (almost) equal utility. We consider the approximate notion of equitability up to one item (EQ1) and focus on the settings containing mixtures of items (goods and chores), where an agent may derive positive, negative, or zero utility from an item. We first show that -- in stark contrast to the goods-only and chores-only settings -- an EQ1 allocation may not exist even for additive {−1,1} bivalued instances, and its corresponding decision problem is computationally intractable. We focus on a natural domain of normalized valuations where the value of the entire set of items is constant for all agents. On the algorithmic side, we show that an EQ1 allocation can be computed efficiently for (i) {−1,0,1} normalized valuations, (ii) objective but non-normalized valuations, (iii) two agents with type-normalized valuations. We complement our study by providing a comprehensive picture of achieving EQ1 allocations under normalized valuations in conjunction with economic efficiency notions such as Pareto optimality and social welfare.