Citas bibligráficas
Huaranga, R., Vasquez, J. (2021). Propuesta de reducción de los tiempos de viajes de los vehículos a través de la gestión de la infraestructura vial en la av. 28 de julio entre el ovalo Jorge Chávez y la av. Arequipa en el distrito de Lima, Perú [Tesis, Universidad Peruana de Ciencias Aplicadas (UPC)]. http://hdl.handle.net/10757/657267
Huaranga, R., Vasquez, J. Propuesta de reducción de los tiempos de viajes de los vehículos a través de la gestión de la infraestructura vial en la av. 28 de julio entre el ovalo Jorge Chávez y la av. Arequipa en el distrito de Lima, Perú [Tesis]. PE: Universidad Peruana de Ciencias Aplicadas (UPC); 2021. http://hdl.handle.net/10757/657267
@misc{renati/396900,
title = "Propuesta de reducción de los tiempos de viajes de los vehículos a través de la gestión de la infraestructura vial en la av. 28 de julio entre el ovalo Jorge Chávez y la av. Arequipa en el distrito de Lima, Perú",
author = "Vasquez Gutierrez, Juan José",
publisher = "Universidad Peruana de Ciencias Aplicadas (UPC)",
year = "2021"
}
This thesis proposes a solution to traffic congestion through a microsimulation with Vissim v9 software on Av. 28 de Julio between the Jorge Chávez oval and Av. Arequipa in the district of Lima. The microsimulation was carried out using the Wiedemann parameters, which were used in the calibration and validation of the model, trying to approximate it to reality, considering the geometry of the study area and the psychology of the drivers. In the first chapter are studies, the problem of traffic congestion in Peru and Lima, some similar antecedents, the hypothesis and the objectives of the investigation. In the second chapter, the theoretical framework that supports the criteria with which both the microsimulation model and the improvement proposal have been developed was developed. Here we can find the definition of the different types of models, the fundamentals of microsimulation through the Vissim v9 software. The third chapter describes the methodology used from field data collection to model development. The fourth chapter presents the properly calibrated and validated microsimulation. These results allow us to analyze the control delays with a value of 50.09 and the current service level of the Jorge Chavez oval in “F”, which after the management of the road infrastructure were improved to a value of control delays 39.06 and the service level improved to “E”, according to the HCM (2010). In the last chapter you will find the conclusions and recommendations that were reached, thus responding to the general objective of this thesis.
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