University of Minnesota Ph.D. dissertation. May 2016. Major: Mechanical Engineering. Advisor: Tryphon Georgiou. 1 computer file (PDF); ix, 143 pages.We study modeling and control of collective dynamics. More specifically, we consider the problem of steering a particle system from an initial distribution to a final one with minimum energy control during some finite time window. It turns out that this problem is closely related to Optimal Mass Transport (OMT) and the Schroedinger bridge problem (SBP). OMT is concerned with reallocating mass from a specified starting distribution to a final one while incurring minimum cost. The SBP, on the other hand, seeks a most likely density ow to reconcile two marginal distributions with a prior probabi...
A distributed routing control algorithm for dynamic networks has recently been presented in the lit...
We introduce and study a stochastic model that we can associate with Monge-Kantorovich (MK) optimal ...
3noIn this paper we consider a mean field approach to modeling the agents flow over a transportation...
We consider the problem of steering an initial probability density for the state vector of a linear ...
We take a new look at the relation between the optimal transport problem and the Schrödinger bridge ...
We consider the problem of steering an initial probability density for the state vector of a linear ...
In 1931-1932, Erwin Schrödinger studied a hot gas Gedankenexperiment (an instance of large deviation...
Optimal transport began as the problem to efficiently redistribute goods between production and cons...
We consider the problem of steering a linear dynamical system with complete state observation from a...
Abstract—We consider transporting a mass on a given directed graph. The mass is initially concentrat...
We consider transportation over a strongly connected, directed graph. The scheduling amounts to sele...
The subject of this work has its roots in the so-called Schrödginer bridge problem (SBP) which asks ...
We consider transportation over a strongly connected, directed graph. The scheduling amounts to sele...
We take a new look at the relation between the optimal transport problem and the Schr\uf6dinger brid...
In this paper we consider a mean field approach to modeling the agents flow over a transportation net...
A distributed routing control algorithm for dynamic networks has recently been presented in the lit...
We introduce and study a stochastic model that we can associate with Monge-Kantorovich (MK) optimal ...
3noIn this paper we consider a mean field approach to modeling the agents flow over a transportation...
We consider the problem of steering an initial probability density for the state vector of a linear ...
We take a new look at the relation between the optimal transport problem and the Schrödinger bridge ...
We consider the problem of steering an initial probability density for the state vector of a linear ...
In 1931-1932, Erwin Schrödinger studied a hot gas Gedankenexperiment (an instance of large deviation...
Optimal transport began as the problem to efficiently redistribute goods between production and cons...
We consider the problem of steering a linear dynamical system with complete state observation from a...
Abstract—We consider transporting a mass on a given directed graph. The mass is initially concentrat...
We consider transportation over a strongly connected, directed graph. The scheduling amounts to sele...
The subject of this work has its roots in the so-called Schrödginer bridge problem (SBP) which asks ...
We consider transportation over a strongly connected, directed graph. The scheduling amounts to sele...
We take a new look at the relation between the optimal transport problem and the Schr\uf6dinger brid...
In this paper we consider a mean field approach to modeling the agents flow over a transportation net...
A distributed routing control algorithm for dynamic networks has recently been presented in the lit...
We introduce and study a stochastic model that we can associate with Monge-Kantorovich (MK) optimal ...
3noIn this paper we consider a mean field approach to modeling the agents flow over a transportation...