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== Abstract ==
 
== Abstract ==
  
Traffic regulation techniques for the optimization of car traffic flows in congested urban networks was considered. The approach used for the description of traffic flows is of fluiddynamic type. The main advantages of this approach, with respect to existing ones, can be summarized as follows. The fluid-dynamic models are completely evolutive, thus they are able to describe the traffic situation of a network at every instant of time. This overcomes the difficulties encountered by many static models. An accurate description of queues formation and evolution on the network is possible. The theory permits the development of efficient numerical schemes also for very large networks. This is possible since traffic at junctions is modelled in a simple and computationally convenient way (resorting to a linear programming problem). The performance analysis of the networks was made through the use of different cost functionals, measuring car average velocity weighted or not weighted with the number of cars moving on each road, the average travelling time, velocity variation, kinetic energy, etc. Exact analytical results were given for simple junctions of 1 ×2 and 2 × 1 type, and then used in order to simulate more complex urban networks. Moreover the problem of emergency vehicles transit has been treated. The problem has been faced choosing a route for emergency vehicles (not dedicated, i.e. not limited only to emergency needs) and redistributing traffic flows at junctions on the basis of the current traffic load in such way that emergency vehicles could travel at the maximum allowed speed along the assigned roads (and without blocking the traffic on other roads). All the optimization results have been obtained using a decentralized approach, i.e. an approach which sets local optimal parameters for each junction of the network. In future we aim to extend the optimization results to more general junctions and to explore global optimization techniques. In addition, the definition and optimization of functionals which take into account the emission and propagation of pollutants produced by cars might provide powerful technological tools to rationalize the design and use of public and private transportation resources, and to reduce unpleasant effects of urban traffic on the environment.
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Traffic regulation techniques for the optimization of car traffic flows in congested urban networks was considered. The approach used for the description of traffic flows is of fluiddynamic type. The main advantages of this approach, with respect to existing ones, can be summarized as follows. The fluid-dynamic models are completely evolutive, thus they are able to describe the traffic situation of a network at every instant of time. This overcomes the difficulties encountered by many static models. An accurate description of queues formation and evolution on the network is possible. The theory permits the development of efficient numerical schemes also for very large networks. This is possible since traffic at junctions is modelled in a simple and computationally convenient way (resorting to a linear programming problem). The performance analysis of the networks was made through the use of different cost functionals, measuring car average velocity weighted or not weighted with the number of cars moving on each road, the average travelling time, velocity variation, kinetic energy, etc. Exact analytical results were given for simple junctions of 1 ×2 and 2 × 1 type, and then used in order to simulate more complex urban networks. Moreover the problem of emergency vehicles transit has been treated. The problem has been faced choosing a route for emergency vehicles (not dedicated, i.e. not limited only to emergency needs) and redistributing traffic flows at junctions on the basis of the current traffic load in such way that emergency vehicles could travel at the maximum allowed speed along the assigned roads (and without blocking the traffic on other roads). All the optimization results have been obtained using a decentralized approach, i.e. an approach which sets local optimal parameters for each junction of the network. In future we aim to extend the optimization results to more general junctions and to explore global optimization techniques. In addition, the definition and optimization of functionals which take into account the emission and propagation of pollutants produced by cars might provide powerful technological tools to rationalize the design and use of public and private transportation resources, and to reduce unpleasant effects of urban traffic on the environment.
 
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Document type: Part of book or chapter of book
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== Full document ==
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<pdf>Media:Draft_Content_188067338-beopen931-9396-document.pdf</pdf>
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The different versions of the original document can be found in:
 
The different versions of the original document can be found in:
  
* [http://www.intechopen.com/articles/show/title/optimization-of-traffic-behavior-via-fluid-dynamic-approach http://www.intechopen.com/articles/show/title/optimization-of-traffic-behavior-via-fluid-dynamic-approach]
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* [http://www.intechopen.com/articles/show/title/optimization-of-traffic-behavior-via-fluid-dynamic-approach http://www.intechopen.com/articles/show/title/optimization-of-traffic-behavior-via-fluid-dynamic-approach] under the license https://creativecommons.org/licenses/by-nc-sa
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* [https://cdn.intechopen.com/pdfs/12058.pdf https://cdn.intechopen.com/pdfs/12058.pdf]
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* [http://cdn.intechopen.com/pdfs/12058/InTech-Optimization_of_traffic_behavior_via_fluid_dynamic_approach.pdf http://cdn.intechopen.com/pdfs/12058/InTech-Optimization_of_traffic_behavior_via_fluid_dynamic_approach.pdf],
 +
: [https://core.ac.uk/display/53776688 https://core.ac.uk/display/53776688],
 +
: [https://www.intechopen.com/books/urban-transport-and-hybrid-vehicles/optimization-of-traffic-behavior-via-fluid-dynamic-approach https://www.intechopen.com/books/urban-transport-and-hybrid-vehicles/optimization-of-traffic-behavior-via-fluid-dynamic-approach],
 +
: [https://www.scipedia.com/public/Piccoli_et_al_2010a https://www.scipedia.com/public/Piccoli_et_al_2010a],
 +
: [http://cdn.intechopen.com/pdfs-wm/12058.pdf http://cdn.intechopen.com/pdfs-wm/12058.pdf],
 +
: [https://www.intechopen.com/books/statistics/urban-transport-and-hybrid-vehicles/optimization-of-traffic-behavior-via-fluid-dynamic-approach https://www.intechopen.com/books/statistics/urban-transport-and-hybrid-vehicles/optimization-of-traffic-behavior-via-fluid-dynamic-approach],
 +
: [https://academic.microsoft.com/#/detail/1550962673 https://academic.microsoft.com/#/detail/1550962673] under the license cc-by-nc-sa
  
* [https://cdn.intechopen.com/pdfs/12058.pdf https://cdn.intechopen.com/pdfs/12058.pdf] under the license cc-by-nc-sa
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* [https://www.intechopen.com/download/pdf/12058 https://www.intechopen.com/download/pdf/12058],
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: [http://dx.doi.org/10.5772/10181 http://dx.doi.org/10.5772/10181]

Latest revision as of 15:29, 21 January 2021

Abstract

Traffic regulation techniques for the optimization of car traffic flows in congested urban networks was considered. The approach used for the description of traffic flows is of fluiddynamic type. The main advantages of this approach, with respect to existing ones, can be summarized as follows. The fluid-dynamic models are completely evolutive, thus they are able to describe the traffic situation of a network at every instant of time. This overcomes the difficulties encountered by many static models. An accurate description of queues formation and evolution on the network is possible. The theory permits the development of efficient numerical schemes also for very large networks. This is possible since traffic at junctions is modelled in a simple and computationally convenient way (resorting to a linear programming problem). The performance analysis of the networks was made through the use of different cost functionals, measuring car average velocity weighted or not weighted with the number of cars moving on each road, the average travelling time, velocity variation, kinetic energy, etc. Exact analytical results were given for simple junctions of 1 ×2 and 2 × 1 type, and then used in order to simulate more complex urban networks. Moreover the problem of emergency vehicles transit has been treated. The problem has been faced choosing a route for emergency vehicles (not dedicated, i.e. not limited only to emergency needs) and redistributing traffic flows at junctions on the basis of the current traffic load in such way that emergency vehicles could travel at the maximum allowed speed along the assigned roads (and without blocking the traffic on other roads). All the optimization results have been obtained using a decentralized approach, i.e. an approach which sets local optimal parameters for each junction of the network. In future we aim to extend the optimization results to more general junctions and to explore global optimization techniques. In addition, the definition and optimization of functionals which take into account the emission and propagation of pollutants produced by cars might provide powerful technological tools to rationalize the design and use of public and private transportation resources, and to reduce unpleasant effects of urban traffic on the environment.


Original document

The different versions of the original document can be found in:

https://core.ac.uk/display/53776688,
https://www.intechopen.com/books/urban-transport-and-hybrid-vehicles/optimization-of-traffic-behavior-via-fluid-dynamic-approach,
https://www.scipedia.com/public/Piccoli_et_al_2010a,
http://cdn.intechopen.com/pdfs-wm/12058.pdf,
https://www.intechopen.com/books/statistics/urban-transport-and-hybrid-vehicles/optimization-of-traffic-behavior-via-fluid-dynamic-approach,
https://academic.microsoft.com/#/detail/1550962673 under the license cc-by-nc-sa
http://dx.doi.org/10.5772/10181
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Published on 01/01/2010

Volume 2010, 2010
DOI: 10.5772/10181
Licence: CC BY-NC-SA license

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