Abstract
Currently, one of the main challenges that large metropolitan areas must face is traffic congestion. To address this problem, it becomes necessary to implement an efficient solution to control traffic that generates benefits for citizens, such as reducing vehicle journey times and, consequently, environmental pollution. By properly analyzing traffic demand, it is possible to predict future traffic conditions, using this information for the optimization of the routes taken by vehicles. Such an approach becomes especially effective if applied in the context of autonomous vehicles, which have a more predictable behavior, thus enabling city management entities to mitigate the effects of traffic congestion and pollution, thereby improving the traffic flow in a city in a fully centralized manner. This paper represents a step forward towards this novel traffic management paradigm by proposing a route server capable of handling all the traffic in a city, and balancing traffic flows by accounting for present and future traffic congestion conditions. We perform a simulation study using real data of traffic congestion in the city of Valencia, Spain, to demonstrate how the traffic flow in a typical day can be improved using our proposed solution. Experimental results show that our proposed traffic prediction equation, combined with frequent updating of traffic conditions on the route server, can achieve substantial improvements in terms of average travel speeds and travel times, both indicators of lower degrees of congestion and improved traffic fluidity.
Highlights
A serious problem in urban areas is the high population density, which leads to frequent traffic congestion conditions in critical areas of a city, increasing the travel time of vehicles .Such increase is directly associated with noise, accidents, unwanted delays, unnecessary fuel consumption, and, an increase in carbon dioxide (CO2 ) emissions, all critical issues for both citizens and city authorities [1].In the last few years, we have seen how a novel mobility paradigm focused on automated vehicles has emerged, and it is steadily gaining interest
We focus on the traffic management during peak hours for the city of Valencia, using the reference traffic conditions, obtained as described above, as input for the Simulation tool of Urban MObility (SUMO) tool [8], and coupling it with the Objective Modular Network Testbed in C++ (OMNeT++) network simulator [9]
We will focus on achieving the load balancing of vehicles by relying on Equation (1) presented in a previous work, which is able to adequately predict travel times depending on the degree of traffic congestion on a per-segment basis as shown in [7]
Summary
A serious problem in urban areas is the high population density, which leads to frequent traffic congestion conditions in critical areas of a city, increasing the travel time of vehicles .Such increase is directly associated with noise, accidents, unwanted delays, unnecessary fuel consumption, and, an increase in carbon dioxide (CO2 ) emissions, all critical issues for both citizens and city authorities [1].In the last few years, we have seen how a novel mobility paradigm focused on automated vehicles has emerged, and it is steadily gaining interest. As autonomous vehicles gradually become ubiquitous in coming years, they present new opportunities to improve traffic by endowing traffic managers with more intelligent ways to regulate traffic when compared with the usual strategies, i.e., traffic light synchronization, or the deployment of on-site traffic agents. This way, the centralized administration of routes emerges as an approach with the potential to offer authorities total control of the traffic. Electronics 2019, 8, 722 flow within their control domain This new way of handling vehicular traffic can optimize traffic flows with high effectiveness by determining the route of each particular vehicle. Current vehicular route servers rely on locally stored static information which is used to calculate the requested routes
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