Thesis: Ph. D., Massachusetts Institute of Technology, Sloan School of Management, Operations Research Center, 2015.This electronic version was submitted by the student author. The certified thesis is available in the Institute Archives and Special Collections.Cataloged from student-submitted PDF version of thesis.Includes bibliographical references (pages 171-178).This thesis discusses optimization problems and equilibrium in networks. There are three major parts of the thesis. In the first part, we discuss optimization in dynamic networks. We focus on two fundamental optimization problems in dynamic networks: the quickest flow problem and the quickest transshipment problem. The quickest flow problem is to find a minimum time needed to se...
Game theoretic modeling and equilibrium analysis of congestion games have provided insights in the ...
This paper is concerned with a conservation law model of traffic flow on a network of roads, where e...
AbstractThis paper considers a group of self-interested agents (drivers) trying to optimize their ut...
International audienceConsider the following game. Given a network with a continuum of users at some...
The problem of dynamic traffic assignment is to predict the evolution of the flow pattern in a netwo...
Starting with the mass-production of automobiles in the beginning of last century, transport analyst...
Motorists often have to choose routes helping them to realize faster journey times. Route choices be...
Part 18: Optimization in Collaborative NetworksInternational audienceThe goal of the paper is to dem...
Being able to predict the impact of a new infrastructure on the traffic in a transportation network ...
We study Network Maximum Congestion Games, a class of network games where players choose a path betw...
We study a network congestion game of discrete-time dynamic traffic of atomic agents with a single o...
This thesis studies the dynamic equilibrium behavior in traffic networks and it is motivated by rush...
This paper formulates a discretized version of the Dynamic User Equilibrium problem on traffic netwo...
In this paper, we present two distributed algorithms to compute an equilibrium, that is optimal with...
Routing games are studied to understand the impact of individual users' decisions on network efficie...
Game theoretic modeling and equilibrium analysis of congestion games have provided insights in the ...
This paper is concerned with a conservation law model of traffic flow on a network of roads, where e...
AbstractThis paper considers a group of self-interested agents (drivers) trying to optimize their ut...
International audienceConsider the following game. Given a network with a continuum of users at some...
The problem of dynamic traffic assignment is to predict the evolution of the flow pattern in a netwo...
Starting with the mass-production of automobiles in the beginning of last century, transport analyst...
Motorists often have to choose routes helping them to realize faster journey times. Route choices be...
Part 18: Optimization in Collaborative NetworksInternational audienceThe goal of the paper is to dem...
Being able to predict the impact of a new infrastructure on the traffic in a transportation network ...
We study Network Maximum Congestion Games, a class of network games where players choose a path betw...
We study a network congestion game of discrete-time dynamic traffic of atomic agents with a single o...
This thesis studies the dynamic equilibrium behavior in traffic networks and it is motivated by rush...
This paper formulates a discretized version of the Dynamic User Equilibrium problem on traffic netwo...
In this paper, we present two distributed algorithms to compute an equilibrium, that is optimal with...
Routing games are studied to understand the impact of individual users' decisions on network efficie...
Game theoretic modeling and equilibrium analysis of congestion games have provided insights in the ...
This paper is concerned with a conservation law model of traffic flow on a network of roads, where e...
AbstractThis paper considers a group of self-interested agents (drivers) trying to optimize their ut...