Bibliographic citations
Mariluz, L., (2020). Propuesta de reducción de los tiempos de viaje vehicular en el óvalo ubicado en la intersección de la Av. Alfredo Mendiola – Av. Eduardo de Habich, a través del sistema de semaforización inteligente RAMP meter [Tesis, Universidad Peruana de Ciencias Aplicadas (UPC)]. http://hdl.handle.net/10757/652357
Mariluz, L., Propuesta de reducción de los tiempos de viaje vehicular en el óvalo ubicado en la intersección de la Av. Alfredo Mendiola – Av. Eduardo de Habich, a través del sistema de semaforización inteligente RAMP meter [Tesis]. PE: Universidad Peruana de Ciencias Aplicadas (UPC); 2020. http://hdl.handle.net/10757/652357
@misc{renati/390738,
title = "Propuesta de reducción de los tiempos de viaje vehicular en el óvalo ubicado en la intersección de la Av. Alfredo Mendiola – Av. Eduardo de Habich, a través del sistema de semaforización inteligente RAMP meter",
author = "Mariluz Cuadros, Luis Eduardo",
publisher = "Universidad Peruana de Ciencias Aplicadas (UPC)",
year = "2020"
}
Vehicle congestion in Lima is chaotic given the lack of road infrastructure and the rapid increase in the number of vehicles. In contrast, this research proposes to implement the intelligent traffic light system, Ramp Meter, based on the AMS-AG algorithm, to reduce vehicle travel times at the Habich roundabout, in San Martin de Porres district. The proposed methodology consists of the collection of static data and registering a checklist. Then, we proceed with taking input data to build the model, such as flows, speed and travels times. The first data packet is used for the construction and calibration of the model in the PTV Vissim 9.0 microsimulation software, and the second one is used for model validation. According to the results of the parameters of vehicular performance (delay, travel time and speed) and pedestrian (travel time and speed) of the current situation and checklist, the proposed solution for roundabout is made. Similarly, at a projection to 15 years its functionality is estimated in the medium term. It is concluded that the improvement proposal through the implementation of the Ramp Meter, based on the AMS-AG algorithm, offers improvements in relation to vehicle performance, however, it loses performance as vehicle flow increases. It fulfills the main objective of the research to reduce vehicle travel times. Finally, it is stated that economic investment that it demands is viable and profitable alternative.
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