Models involving branched structures are employed to describe several supply-demand systems such as the structure of the nerves of a leaf, the system of roots of a tree, and the nervous or cardiovascular systems. Given a flow (traffic path) that transports a given measure μ- onto a target measure μ+, along a 1-dimensional network, the transportation cost per unit length is supposed in these models to be proportional to a concave power α∈ (0 , 1) of the intensity of the flow. In this paper we address an open problem in the book Optimal transportation networks by Bernot, Caselles and Morel and we improve the stability for optimal traffic paths in the Euclidean space Rd, with respect to variations of the given measures (μ-, μ+) , which was kno...
The capacity distribution plays a crucial role to determine the traffic performance. In this paper, ...
This dissertation is concerned with network flow problems for which some of the conventional assumpt...
Hidden inside the design of a living network is the key to its function: above all else, nature sear...
Models involving branched structures are employed to describe several supply-demand systems such as ...
We show in full generality the stability of optimal transport paths in branched transport: namely, w...
The transportation problem can be formalized as the problem of finding the optimal way to transport ...
We show in full generality the stability of optimal transport paths in branched transport: namely, w...
An oriented transportation network can be modeled by a 1-dimensional chain whose boundary is the dif...
An oriented transportation network can be modeled by a 1-dimensional chain whose boundary is the dif...
We prove the stability of optimal traffic plans in branched transport. In particular, we show that a...
Optimal mass transportation aims to find a cost efficient strategy for moving some commodity between...
This note develops asymptotic formulae for single-commodity network flow problems with random inputs...
The imposition of a cost constraint for constructing the optimal navigation structure surely represe...
We study the statistical properties of optimal paths in weighted complex networks with general distr...
Hidden inside the design of a living network is the key to its function: above all else, nature sear...
The capacity distribution plays a crucial role to determine the traffic performance. In this paper, ...
This dissertation is concerned with network flow problems for which some of the conventional assumpt...
Hidden inside the design of a living network is the key to its function: above all else, nature sear...
Models involving branched structures are employed to describe several supply-demand systems such as ...
We show in full generality the stability of optimal transport paths in branched transport: namely, w...
The transportation problem can be formalized as the problem of finding the optimal way to transport ...
We show in full generality the stability of optimal transport paths in branched transport: namely, w...
An oriented transportation network can be modeled by a 1-dimensional chain whose boundary is the dif...
An oriented transportation network can be modeled by a 1-dimensional chain whose boundary is the dif...
We prove the stability of optimal traffic plans in branched transport. In particular, we show that a...
Optimal mass transportation aims to find a cost efficient strategy for moving some commodity between...
This note develops asymptotic formulae for single-commodity network flow problems with random inputs...
The imposition of a cost constraint for constructing the optimal navigation structure surely represe...
We study the statistical properties of optimal paths in weighted complex networks with general distr...
Hidden inside the design of a living network is the key to its function: above all else, nature sear...
The capacity distribution plays a crucial role to determine the traffic performance. In this paper, ...
This dissertation is concerned with network flow problems for which some of the conventional assumpt...
Hidden inside the design of a living network is the key to its function: above all else, nature sear...