Bibliographic citations
Penadillo, R., Reinoso, Y. (2023). Rediseño de la ciclovía en la intersección de la Av. Canaval y Moreyra y la Av. Pablo Carriquiry para mejorar los tiempos de viaje y la accesibilidad [Trabajo de Suficiencia Profesional, Universidad Peruana de Ciencias Aplicadas (UPC)]. http://hdl.handle.net/10757/671777
Penadillo, R., Reinoso, Y. Rediseño de la ciclovía en la intersección de la Av. Canaval y Moreyra y la Av. Pablo Carriquiry para mejorar los tiempos de viaje y la accesibilidad [Trabajo de Suficiencia Profesional]. PE: Universidad Peruana de Ciencias Aplicadas (UPC); 2023. http://hdl.handle.net/10757/671777
@misc{renati/413281,
title = "Rediseño de la ciclovía en la intersección de la Av. Canaval y Moreyra y la Av. Pablo Carriquiry para mejorar los tiempos de viaje y la accesibilidad",
author = "Reinoso Gonzales, Yasmin Almendra",
publisher = "Universidad Peruana de Ciencias Aplicadas (UPC)",
year = "2023"
}
In recent years, the use of bicycles as a means of transportation has been increasing due to different factors such as social distancing generated by the pandemic, the deficiency in public transportation, vehicle congestion, implementation of new cycling infrastructure, adoption of a cycling culture, interest in sustainability and affordable prices. However, the current road infrastructure is not designed to adapt bicycle lanes that meet the minimum conditions required by the National Association of City Transportation Officials of 2014. Therefore, this research, which consists of 4 chapters, evaluates the reduction in travel times. travel and increasing accessibility for cyclists through the redesign of the cycle path located at the intersection of Canaval Moreyra and Pablo Carriquiry avenues. Through the use of the Vissim 9 microsimulation tool. To do this, it was necessary to obtain capacity data and travel times at the intersection, during two typical weekdays, making visits to the study area and videos recorded with a drone, because the document has a field research design and a descriptive level. For this purpose, models with Wiedemann 74 parameters were calibrated and validated, in order to model the redesign proposal in a model already validated with 95% confidence, confirming the hypothesis that, redesigning the intersection with the criteria established by NACTO, and by implementing an optimal cycle, travel times can be reduced by approximately 20%.
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