Bibliographic citations
Gamarra, L., Ordoñez, C. (2024). Diseño de una ciclovía de conexión para mejorar la circulación de los ciclistas entre las avenidas Alberto Alexander y Salaverry en el distrito de San Isidro utilizando un modelo de microsimulación [Trabajo de Suficiencia Profesional, Universidad Peruana de Ciencias Aplicadas (UPC)]. http://hdl.handle.net/10757/683229
Gamarra, L., Ordoñez, C. Diseño de una ciclovía de conexión para mejorar la circulación de los ciclistas entre las avenidas Alberto Alexander y Salaverry en el distrito de San Isidro utilizando un modelo de microsimulación [Trabajo de Suficiencia Profesional]. PE: Universidad Peruana de Ciencias Aplicadas (UPC); 2024. http://hdl.handle.net/10757/683229
@misc{renati/1036130,
title = "Diseño de una ciclovía de conexión para mejorar la circulación de los ciclistas entre las avenidas Alberto Alexander y Salaverry en el distrito de San Isidro utilizando un modelo de microsimulación",
author = "Ordoñez Tapia, Christian Robert",
publisher = "Universidad Peruana de Ciencias Aplicadas (UPC)",
year = "2024"
}
The lack of a continuous connection in the cycling network in the district of San Isidro has caused delays in cyclists' routes, resulting in a loss of time for them. Therefore, a design is proposed for a bike lane that connects the interrupted bike lane at the intersection of César Vallejo Avenue and Alberto Alexander Avenue with the bike lane on Salaverry Avenue. The proposed bike lane is exclusively for cyclists and will comply with national and international regulations, such as the Design Criteria Manual for Cycling-Inclusive Infrastructure and Cyclist Circulation Guide (Metropolitan Municipality of Lima, 2017) and the Streets Manual: Road Design (Secretariat of Agrarian, Territorial, and Urban Development, 2019), which ensure users’ safety. Subsequently, a model in VISSIM was developed, including its respective calibration, based on the design and field data collected. The results of the connection bike lane modeling in the study area showed a reduction in cyclists' travel time by one minute, representing a 13% decrease in travel time. Additionally, the average cycling speed reached 21.41 km/h. Likewise, the level of vehicular traffic service on the roads where the connection bike lane was implemented remained at level E. In conclusion, incorporating the connection bike lane under the current conditions is feasible and beneficial for cyclists, pedestrians, and vehicles, without significantly affecting vehicular traffic.
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