We introduce a graphical framework for fair division in cake cutting, where comparisons between agents are limited by an underlying network structure. We generalize the classical fairness notions of envy-freeness and proportionality to this graphical setting. Given a simple undirected graph G, an allocation is envy-free on G if no agent envies any of her neighbor's share, and is proportional on G if every agent values her own share no less than the average among her neighbors, with respect to her own measure. These generalizations open new research directions in developing simple and efficient algorithms that can produce fair allocations under specific graph structures. On the algorithmic frontier, we first propose a moving-knife algorithm ...
We study the allocation of indivisible goods that form an undirected graph and quantify the loss of...
International audienceWe consider fair allocation of indivisible items under an additional constrain...
We consider fair allocation of indivisible items under an additional constraint: there is an undirec...
We study the classic problem of fairly dividing a heterogeneous and divisible resource -- represente...
Cake cutting is a classic model for studying fair division of a heterogeneous, divisible resource am...
We study the fair allocation of a cake, which serves as a metaphor for a divisible resource, under t...
We study the allocation of indivisible goods that form an undirected graph and quantify the loss of ...
We study the fair allocation of a cake, which serves as a metaphor for a divisible resource, under t...
We study the fair allocation of a cake, which serves as a metaphor for a divisible resource, under t...
Abstract. Fair allocation of goods or resources among various agents is a cen-tral task in multiagen...
We prove an $\Omega(n^2)$ lower bound on the query complexity of local proportionality in the Robert...
Using a lab experiment, we investigate the real-life performance of envy-free and proportional cake-...
We introduce the simultaneous model for cake cutting (the fair allocation of a divisible good), in w...
We analyze a class of proportional cake-cutting algorithms that use a minimal number of cuts (n-1 if...
Fair division problems have been vastly studied in the past 60 years. This line of research was init...
We study the allocation of indivisible goods that form an undirected graph and quantify the loss of...
International audienceWe consider fair allocation of indivisible items under an additional constrain...
We consider fair allocation of indivisible items under an additional constraint: there is an undirec...
We study the classic problem of fairly dividing a heterogeneous and divisible resource -- represente...
Cake cutting is a classic model for studying fair division of a heterogeneous, divisible resource am...
We study the fair allocation of a cake, which serves as a metaphor for a divisible resource, under t...
We study the allocation of indivisible goods that form an undirected graph and quantify the loss of ...
We study the fair allocation of a cake, which serves as a metaphor for a divisible resource, under t...
We study the fair allocation of a cake, which serves as a metaphor for a divisible resource, under t...
Abstract. Fair allocation of goods or resources among various agents is a cen-tral task in multiagen...
We prove an $\Omega(n^2)$ lower bound on the query complexity of local proportionality in the Robert...
Using a lab experiment, we investigate the real-life performance of envy-free and proportional cake-...
We introduce the simultaneous model for cake cutting (the fair allocation of a divisible good), in w...
We analyze a class of proportional cake-cutting algorithms that use a minimal number of cuts (n-1 if...
Fair division problems have been vastly studied in the past 60 years. This line of research was init...
We study the allocation of indivisible goods that form an undirected graph and quantify the loss of...
International audienceWe consider fair allocation of indivisible items under an additional constrain...
We consider fair allocation of indivisible items under an additional constraint: there is an undirec...