Optimization of Traffic Lights Timing Based on Multiple Neural Networks

This paper presents a neural networks based traffic light controller for urban traffic road intersection called EOM-MNN Controller (Environment Observation Method based on Multiple Neural Networks Controller). Traffic congestion leads to problems like delays and higher fuel consumption. Consequently...

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Hauptverfasser:	De Oliveira, Michel B. W., De Almeida Neto, Areolino
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	adaptive control Artificial intelligence Artificial neural networks Computer simulation Controllers Function approximation Mathematical analysis Mathematical models Multi-layer neural network multiple neural networks Neural networks Time measurements Timing Traffic engineering Traffic flow traffic lights Vehicles
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creator	De Oliveira, Michel B. W. De Almeida Neto, Areolino
description	This paper presents a neural networks based traffic light controller for urban traffic road intersection called EOM-MNN Controller (Environment Observation Method based on Multiple Neural Networks Controller). Traffic congestion leads to problems like delays and higher fuel consumption. Consequently, alleviating congested situation is not only good to economy but also to environment. The problem of traffic light control is very challenging. Traditional mathematical methods have some limitations when they are applied in traffic control. Thus, modern artificial intelligent ways have gained more and more attentions. In this work, EOM is a very interesting mathematical method for determining traffic lights timing that was developed by Ejzenberg [4]. However, this method has some implications in which multiple neural networks were proposed to improve such problems. The solution was compared with the conventional method through scenario of simulation in microscopic traffic simulation software.
doi_str_mv	10.1109/ICTAI.2013.126
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subjects	adaptive control Artificial intelligence Artificial neural networks Computer simulation Controllers Function approximation Mathematical analysis Mathematical models Multi-layer neural network multiple neural networks Neural networks Time measurements Timing Traffic engineering Traffic flow traffic lights Vehicles
title	Optimization of Traffic Lights Timing Based on Multiple Neural Networks
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