Bibliographic citations
Arenaza, J., Miranda, E. (2023). Propuesta de mejora de la ubicación de los puntos de abordaje y rediseño de la señalización dentro de la Estación Naranjal del BRT Metropolitano de Lima para reducir las trayectorias y densidad de los usuarios mediante microsimulación [Tesis, Universidad Peruana de Ciencias Aplicadas (UPC)]. http://hdl.handle.net/10757/668950
Arenaza, J., Miranda, E. Propuesta de mejora de la ubicación de los puntos de abordaje y rediseño de la señalización dentro de la Estación Naranjal del BRT Metropolitano de Lima para reducir las trayectorias y densidad de los usuarios mediante microsimulación [Tesis]. PE: Universidad Peruana de Ciencias Aplicadas (UPC); 2023. http://hdl.handle.net/10757/668950
@misc{renati/407348,
title = "Propuesta de mejora de la ubicación de los puntos de abordaje y rediseño de la señalización dentro de la Estación Naranjal del BRT Metropolitano de Lima para reducir las trayectorias y densidad de los usuarios mediante microsimulación",
author = "Miranda De La Cruz, Enrique Abdallah",
publisher = "Universidad Peruana de Ciencias Aplicadas (UPC)",
year = "2023"
}
The BRT (Bus Rapid Transit) system is a public transportation system that has been implemented in several developing cities in response to the needs of users who want to travel efficiently and safely in addition to conventional means of transportation. However, the capacity within the station is currently limited during peak travel times. Because of this, conflict points are generated in the walking trajectories causing inefficient and long journeys. Similarly, the collision of people flows increases the number of interactions that can occur during the user's stay in the station. Therefore, this study aims to propose improvements at Naranjal Station to reduce user paths and density by relocating boarding points and redesigning signage. Data collection was conducted during multiple visits to the study site, measuring the travel time of the user trajectory through simultaneous recordings at several strategic points within the station. This allowed us to observe that there is a clear delay in travel from origin to destination. The proposal was simulated with Vissim - Viswalk software to determine its efficiency and compare it with the real situation. A 46.60% improvement was achieved in the reduction of user trajectories and a 29.73% improvement in density.
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