We consider fair division problems where indivisible items arrive one by one in an online fashion and are allocated immediately to agents who have additive utilities over these items. Many existing offline mechanisms do not work in this online setting. In addition, many existing axiomatic results often do not transfer from the offline to the online setting. For this reason, we propose here three new online mechanisms, as well as consider the axiomatic properties of three previously proposed online mechanisms. In this paper, we use these mechanisms and characterize classes of online mechanisms that are strategy-proof, and return envy-free and Pareto efficient allocations, as well as combinations of these properties. Finally, we identify an i...
We consider the problem of fairly allocating a set of indivisible goods to a set of strategic agents...
This paper studies envy-free allocations for economies with indivisible objects, quasi-linear utilit...
We consider mechanisms for the online allocation of perishable resources such as energy or computati...
We study a new but simple model for online fair division in which indivisible items arrive one-by-on...
We consider a fair division setting in which items arrive one by one and are allocated to agents via...
(Offline) Fair Division is a fundamental problem in which a number of resources are allocated to a n...
This paper combines two key ingredients for online algorithms - competitive analysis (e.g. the compe...
Resource allocation aims at allocating scarce resources to strategic agents in an efficient and fair...
This paper considers the problem of allocating N indivisible objects among N agents according to the...
The fair division of indivisible goods has long been an important topic in economics and, more recen...
We study the problem of allocating a set of indivisible goods to a set of agents having additive pre...
We study the problem of fairly allocating a set of indivis-ible goods to a set of people from an alg...
Behavioural economists have shown that people are often averse to inequality and will make choices t...
Haake C-J, Raith MG, Su FE. Bidding for envy-freeness: A procedural approach to n-player fair-divisi...
We study the problem of fair division of a heterogeneous resource among strategic players. Given a d...
We consider the problem of fairly allocating a set of indivisible goods to a set of strategic agents...
This paper studies envy-free allocations for economies with indivisible objects, quasi-linear utilit...
We consider mechanisms for the online allocation of perishable resources such as energy or computati...
We study a new but simple model for online fair division in which indivisible items arrive one-by-on...
We consider a fair division setting in which items arrive one by one and are allocated to agents via...
(Offline) Fair Division is a fundamental problem in which a number of resources are allocated to a n...
This paper combines two key ingredients for online algorithms - competitive analysis (e.g. the compe...
Resource allocation aims at allocating scarce resources to strategic agents in an efficient and fair...
This paper considers the problem of allocating N indivisible objects among N agents according to the...
The fair division of indivisible goods has long been an important topic in economics and, more recen...
We study the problem of allocating a set of indivisible goods to a set of agents having additive pre...
We study the problem of fairly allocating a set of indivis-ible goods to a set of people from an alg...
Behavioural economists have shown that people are often averse to inequality and will make choices t...
Haake C-J, Raith MG, Su FE. Bidding for envy-freeness: A procedural approach to n-player fair-divisi...
We study the problem of fair division of a heterogeneous resource among strategic players. Given a d...
We consider the problem of fairly allocating a set of indivisible goods to a set of strategic agents...
This paper studies envy-free allocations for economies with indivisible objects, quasi-linear utilit...
We consider mechanisms for the online allocation of perishable resources such as energy or computati...