Bibliographic citations
Aburto, J., Contreras, M. (2021). Reducción de la Longitud de Cola Vehicular en la Estación de peaje Variante de la Red Vial 05 a través de la mejora del diseño geométrico y la implementación de sistemas inteligentes de transporte [Tesis, Universidad Peruana de Ciencias Aplicadas (UPC)]. http://hdl.handle.net/10757/658795
Aburto, J., Contreras, M. Reducción de la Longitud de Cola Vehicular en la Estación de peaje Variante de la Red Vial 05 a través de la mejora del diseño geométrico y la implementación de sistemas inteligentes de transporte [Tesis]. PE: Universidad Peruana de Ciencias Aplicadas (UPC); 2021. http://hdl.handle.net/10757/658795
@misc{renati/398304,
title = "Reducción de la Longitud de Cola Vehicular en la Estación de peaje Variante de la Red Vial 05 a través de la mejora del diseño geométrico y la implementación de sistemas inteligentes de transporte",
author = "Contreras Saavedra, María Dolores",
publisher = "Universidad Peruana de Ciencias Aplicadas (UPC)",
year = "2021"
}
This thesis proposes an alternative solution to reduce the length of the vehicular queue at the Variante Toll Unit, through a geometric redesign, as well as the installation of intelligent transportation systems. For the elaboration of this proposal, the problems that occur on a daily basis at this toll unit were analyzed, which affect thousands of users, generating discomfort, loss of time and in general dissatisfaction with the service provided at these facilities. The proposal was analyzed through microsimulation with Vissim software, using a calibration and validation model to simulate the real situation in the area. Chapter 1 presents the problem, the background of related works, the development of the hypothesis, and the objectives of this research. In Chapter 2, the theoretical framework that supports the microsimulation model is developed. In Chapter 3 the methodology used is described, the same one that began with the collection of field data until the calibration and validation of the microsimulation model. Chapter 4 presents the results of the current situation and the simulation of the proposal to improve the geometric design and installation of an intelligent transport system, thereby reducing the queue length of up to one 42% in peak hours. In Chapter 5 the conclusions and recommendations that are achieved with this work are presented.
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