Citas bibligráficas
Sanchez, E., Marroquin, P. (2024). Propuesta de semaforización y crucero peatonal diagonal en la intersección de la Av. La Marina y Av. Rafael Escardó para reducir la cantidad de conflictos vehículo - peatón y mejorar el tiempo de cruce de los peatones [Trabajo de Suficiencia Profesional, Universidad Peruana de Ciencias Aplicadas (UPC)]. http://hdl.handle.net/10757/683239
Sanchez, E., Marroquin, P. Propuesta de semaforización y crucero peatonal diagonal en la intersección de la Av. La Marina y Av. Rafael Escardó para reducir la cantidad de conflictos vehículo - peatón y mejorar el tiempo de cruce de los peatones [Trabajo de Suficiencia Profesional]. PE: Universidad Peruana de Ciencias Aplicadas (UPC); 2024. http://hdl.handle.net/10757/683239
@misc{renati/1036182,
title = "Propuesta de semaforización y crucero peatonal diagonal en la intersección de la Av. La Marina y Av. Rafael Escardó para reducir la cantidad de conflictos vehículo - peatón y mejorar el tiempo de cruce de los peatones",
author = "Marroquin Espino, Piero Alexander",
publisher = "Universidad Peruana de Ciencias Aplicadas (UPC)",
year = "2024"
}
The intersection of Avenida La Marina and Avenid Rafael Escardó in the district of San Miguel is a critical point in Lima, where there are several conflicts between pedestrians and vehicles. The high flow of traffic and pedestrians will generate dangerous situations that increase the risk of accidents and prolong crosswalk times. This problem highlights the need to improve road safety and pedestrian crossing times. The aim is to reduce the number of road conflicts and pedestrian crossing times by implementing a diagonal crosswalk. For this purpose, the current situation of the intersection will be described and pedestrian behavior and traffic signalization will be characterized. A micro-simulation model will also be developed to represent the current state and evaluate the impact of the proposed intervention. The procedure includes the collection of data on the current situation at the intersection, as well as the development of a micro-simulation model using the simulation software VISSIM and the SSAM model. These softwares allow simulating and analyzing traffic and pedestrian behavior in urban environments, which will help to visualize how the proposed diagonal crosswalk could improve safety and fluidity at the intersection. Finally, the results show a 38.26% decrease in vehicle-pedestrian conflicts, a 29.43% reduction in pedestrian crossing times, and a 50.09% reduction in vehicle time on the east-south approach after implementation of the proposal. In addition, a 5-year volume projection was made, where the results are a 40.29% reduction in vehicle-pedestrian conflicts, while crossing times were reduced by 31.98% and travel times were reduced by 52.39% in the East-South access and 35.75% in the West-North access. These data support the effectiveness of the proposal in terms of improving safety and optimizing vehicular flow.
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