Abstract — We propose a novel mechanism for routing and bandwidth allocation that exploits the selfish and rational behav-ior of flows in a network. Our mechanism leads to allocations that simultaneously optimize throughput and fairness criteria. We analyze the performance of our mechanism in terms of the induced Nash equilibrium. We compare the allocations at the Nash equilibrium with throughput-optimal allocations as well as with fairness-optimal allocations. Our mechanism offers a smooth trade-off between these criteria, and allows us to produce allocations that are approximately optimal with respect to both. Our mechanism is also fairly simple and admits an efficient distributed implementation. I
Abstract—It has been shown that as long as traffic sources adapt their rates to aggregate congestion...
AbstractIntuitively, Braess’s paradox states that destroying a part of a network may improve the com...
International audienceThere are several approaches of sharing resources among users. There is a nonc...
In large-scale communication networks, like the Internet, it is usually impossible to globally manag...
We study the problem of routing traffic through a congested network. We focus on the simplest case o...
We consider general resource assignment games involving selfish users/agents in which users compete ...
We examine the following traffic model. There is a network of users who wish to route traffic to th...
We consider a multi-user network that is shared by noncooperative users. Each user sets up virtual p...
Resource allocation in bandwidth-sharing networks is inherently complex: the distributed nature of r...
Abstract—This paper concerns the design of distributed algorithms for sharing network bandwidth reso...
Network routing –being a central part of our everyday life, which increasingly depends on inte...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Sloan School of Management, Operations Resea...
Abstract—The paper studies the routing in the network shared by several users. Each user seeks to op...
Noncooperative network routing games are a natural model of users trying to selfishly route flow thr...
Abstract — The problem of achieving fairness in the allocation of the bandwidth resource on a link s...
Abstract—It has been shown that as long as traffic sources adapt their rates to aggregate congestion...
AbstractIntuitively, Braess’s paradox states that destroying a part of a network may improve the com...
International audienceThere are several approaches of sharing resources among users. There is a nonc...
In large-scale communication networks, like the Internet, it is usually impossible to globally manag...
We study the problem of routing traffic through a congested network. We focus on the simplest case o...
We consider general resource assignment games involving selfish users/agents in which users compete ...
We examine the following traffic model. There is a network of users who wish to route traffic to th...
We consider a multi-user network that is shared by noncooperative users. Each user sets up virtual p...
Resource allocation in bandwidth-sharing networks is inherently complex: the distributed nature of r...
Abstract—This paper concerns the design of distributed algorithms for sharing network bandwidth reso...
Network routing –being a central part of our everyday life, which increasingly depends on inte...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Sloan School of Management, Operations Resea...
Abstract—The paper studies the routing in the network shared by several users. Each user seeks to op...
Noncooperative network routing games are a natural model of users trying to selfishly route flow thr...
Abstract — The problem of achieving fairness in the allocation of the bandwidth resource on a link s...
Abstract—It has been shown that as long as traffic sources adapt their rates to aggregate congestion...
AbstractIntuitively, Braess’s paradox states that destroying a part of a network may improve the com...
International audienceThere are several approaches of sharing resources among users. There is a nonc...
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