Bibliographic citations
Gutierrez, J., Taipe, W. (2020). Propuesta para la ubicación de estaciones de bicicletas públicas mediante la metodología de Máxima Cobertura para la reducción de los tiempos de viajes en el distrito de San Borja - Lima [Tesis, Universidad Peruana de Ciencias Aplicadas (UPC)]. http://hdl.handle.net/10757/651947
Gutierrez, J., Taipe, W. Propuesta para la ubicación de estaciones de bicicletas públicas mediante la metodología de Máxima Cobertura para la reducción de los tiempos de viajes en el distrito de San Borja - Lima [Tesis]. PE: Universidad Peruana de Ciencias Aplicadas (UPC); 2020. http://hdl.handle.net/10757/651947
@misc{renati/390444,
title = "Propuesta para la ubicación de estaciones de bicicletas públicas mediante la metodología de Máxima Cobertura para la reducción de los tiempos de viajes en el distrito de San Borja - Lima",
author = "Taipe Contreras, Wiler James",
publisher = "Universidad Peruana de Ciencias Aplicadas (UPC)",
year = "2020"
}
The current public transport concern forces us to encourage the implementation of sustainable and healthy means of transport. For this reason, it is proposed with this research to properly locate the bicycle stations and thus reduce the travel times by bicycle in the district of San Borja. In the first chapter we will formulate the problematic reality, formulation of the transport problem and some background of similar studies in different countries with positive results. We will also develop the general objectives, specific objectives and limitations of the investigation. In the second chapter, the theoretical framework of the methodology for the optimal location of bicycle stations, microsimulation models and the proposal for improvement will be described. Likewise, we will define the types of traffic model, some considerations that will be necessary to perform the analysis of the results obtained. In the third chapter we will describe the methodology used since the data collection for the maximum coverage methodology and the microsimulation model duly calibrated and validated. Also, the application of the maximum coverage methodology (ArcGIS) and the construction of the simulation model in the VISSIM software will be detailed. In the fourth chapter the analysis of the stations is presented using the maximum coverage model, location of the optimal stations, the reduction of trips of the current state and that of the proposed scenarios and finally the results of the comparison. In the last chapter you will find the conclusions and recommendations that were reached in response to the general objective of this thesis.
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