We define a fairness solution criterion for multi-agent decision-making problems, where agents have local interests. This new criterion aims to maximize the worst performance of agents with consideration on the overall performance. We develop a simple linear programming approach and a more scalable game-theoretic approach for computing an optimal fairness policy. This game-theoretic approach formulates this fairness optimization as a two-player, zero-sum game and employs an iterative algorithm for finding a Nash equilibrium, corresponding to an optimal fairness policy. We scale up this approach by exploiting problem structure and value function approximation. Our experiments on resource allocation problems show that this fairness criterion ...
Robust decision-making in multiplayer games requires anticipating what reactions a player policy may...
Recent advances in technology allow multi-agent systems to be deployed in cooperation with or as a s...
Abstract. Typically, multi-agent systems are designed assuming perfectly rational, self-interested a...
We define a fairness solution criterion for multi-agent decision-making problems, where agents have ...
The utilitarian solution criterion, which has been extensively studied in multi-agent decision makin...
Multi-agent systems are complex systems in which multiple autonomous entities, called agents, cooper...
The utilitarian solution criterion, which has been extensively studied in multi-agent decision makin...
In this paper we study resource allocation problems that involve multiple self-interested parties or...
We study the problem of fair resource allocation in a simple cooperative multi-agent setting where w...
WOS: 000234148400001We study the problem of fair resource allocation in a simple cooperative multi-a...
In cooperative multi-agent sequential decision making under uncertainty, agents must coordinate in o...
International audienceThis paper proposes several operational approaches for solving fair allocation...
We study different aspects of the multiagent resource allocation problem when the objective is to fi...
We investigate the concept of price of fairness in resource allocation and apply it to two-agent sin...
We study fairness through the lens of cooperative multi-agent learning. Our work is motivated by emp...
Robust decision-making in multiplayer games requires anticipating what reactions a player policy may...
Recent advances in technology allow multi-agent systems to be deployed in cooperation with or as a s...
Abstract. Typically, multi-agent systems are designed assuming perfectly rational, self-interested a...
We define a fairness solution criterion for multi-agent decision-making problems, where agents have ...
The utilitarian solution criterion, which has been extensively studied in multi-agent decision makin...
Multi-agent systems are complex systems in which multiple autonomous entities, called agents, cooper...
The utilitarian solution criterion, which has been extensively studied in multi-agent decision makin...
In this paper we study resource allocation problems that involve multiple self-interested parties or...
We study the problem of fair resource allocation in a simple cooperative multi-agent setting where w...
WOS: 000234148400001We study the problem of fair resource allocation in a simple cooperative multi-a...
In cooperative multi-agent sequential decision making under uncertainty, agents must coordinate in o...
International audienceThis paper proposes several operational approaches for solving fair allocation...
We study different aspects of the multiagent resource allocation problem when the objective is to fi...
We investigate the concept of price of fairness in resource allocation and apply it to two-agent sin...
We study fairness through the lens of cooperative multi-agent learning. Our work is motivated by emp...
Robust decision-making in multiplayer games requires anticipating what reactions a player policy may...
Recent advances in technology allow multi-agent systems to be deployed in cooperation with or as a s...
Abstract. Typically, multi-agent systems are designed assuming perfectly rational, self-interested a...