Optimal Urban Networks via Mass Transportation [electronic resource] / by Giuseppe Buttazzo, Aldo Pratelli, Eugene Stepanov, Sergio Solimini.

By:

Buttazzo, Giuseppe [author.]

Contributor(s):

Material type: Text

TextSeries: Lecture Notes in Mathematics ; 1961Publisher: Berlin, Heidelberg : Springer Berlin Heidelberg, 2009Description: X, 150 p. 15 illus. online resourceContent type:

text

Media type:

computer

Carrier type:

online resource

ISBN:

9783540857990

Subject(s):

Additional physical formats: Printed edition:: No title; Printed edition:: No titleDDC classification:

515.64 23

LOC classification:

QA315-316
QA402.3
QA402.5-QA402.6

Online resources:

Click here to access online

Contents:

Problem setting -- Optimal connected networks -- Relaxed problem and existence of solutions -- Topological properties of optimal sets -- Optimal sets and geodesics in the two-dimensional case.

In: Springer eBooksSummary: Recently much attention has been devoted to the optimization of transportation networks in a given geographic area. One assumes the distributions of population and of services/workplaces (i.e. the network's sources and sinks) are known, as well as the costs of movement with/without the network, and the cost of constructing/maintaining it. Both the long-term optimization and the short-term, "who goes where" optimization are considered. These models can also be adapted for the optimization of other types of networks, such as telecommunications, pipeline or drainage networks. In the monograph we study the most general problem settings, namely, when neither the shape nor even the topology of the network to be constructed is known a priori.

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Problem setting -- Optimal connected networks -- Relaxed problem and existence of solutions -- Topological properties of optimal sets -- Optimal sets and geodesics in the two-dimensional case.

Recently much attention has been devoted to the optimization of transportation networks in a given geographic area. One assumes the distributions of population and of services/workplaces (i.e. the network's sources and sinks) are known, as well as the costs of movement with/without the network, and the cost of constructing/maintaining it. Both the long-term optimization and the short-term, "who goes where" optimization are considered. These models can also be adapted for the optimization of other types of networks, such as telecommunications, pipeline or drainage networks. In the monograph we study the most general problem settings, namely, when neither the shape nor even the topology of the network to be constructed is known a priori.

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