Infraestructura Vial ISSN Impreso: 1409-4045 ISSN electrónico: 2215-3705

OAI: https://revistas.ucr.ac.cr/index.php/vial/oai
Time-spatial analysis of the effect of the implementation of weighing stations on the esals for pavement design
Vol. 24 No. 43 (2022), Scientific Papers
Vol. 24 No. 43 (2022)

Time-spatial analysis of the effect of the implementation of weighing stations on the esals for pavement design

Scientific Papers
https://doi.org/10.15517/iv.v24i43.48005
Published February 22, 2022
Allan Gerardo Ureña Bermúdez
University of Costa Rica
Jaime Allen
University of Costa Rica, LANAMME
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Keywords

ESALs
noncompliance
automation
pavement
Factor camión
incumplimiento
automatización
pavimento

How to Cite

Ureña Bermúdez, A. G., & Allen, J. (2022). Time-spatial analysis of the effect of the implementation of weighing stations on the esals for pavement design. Infraestructura Vial, 24(43), 1–17. https://doi.org/10.15517/iv.v24i43.48005
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Abstract

The truck factor is one of the main components in computing the load demand for highway pavements. The aim of this study is to analyse the databases on weighing carried out between 2008 and 2017. Therefore, more than 12 million heavy transport vehicles were counted, these vehicles were distributed in Limon and Cartago weighing stations. For each vehicle, the associated truck factor was calculated. Besides, according to the weight of each of its axles, it was determined if the vehicle did not comply with the provisions of the Legal Decree no 31363 of the MOPT. The econometric models are computed from the truck factor variables and non-compliance percentages. These models take the effect from different variables of the type of truck on the truck factor and non-compliance: spatial and temporal, and the type of measurement. The econometric models consider the following variables: year, month, type of vehicle, day, hour, and the type of measurement applied in the analysed stations. One of the results of this research is that there was an increase in the truck factors and non-compliance percentages analysed when going from a manual weighing system to an automated one.

https://doi.org/10.15517/iv.v24i43.48005
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References

Allen, J. y Badilla, G. (2011). Determinación de la carga de diseño para pavimentos flexibles en Costa Rica. XVI Congreso Ibero-Latinoamericano do Asfalto, Rio de Janeiro, Brasil. Recuperado de: https://www.lanamme.ucr.ac.cr/repositorio/handle/50625112500/516

American Association of State Highway and Transportation Officials (2003). Guide for Design of Pavement Structures. AASHTO: Washington D. C.

Byrne, B. (2011). Structural equation modeling with AMOS: Basic concepts, applications, and programming. Routledge: Londres.

Contraloría General de la República (2013). Informe del estudio especial efectuado en el Consejo Nacional de Vialidad, sobre la rehabilitación de las estaciones de pesaje (DFOE-IFR-IF-07-2013). Recuperado de: https://cgrfiles.cgr.go.cr/publico/docs_cgr/2013/SIGYD_D_2013016059.pdf

Estado de la Nación (2018). Estado de la Nación en Desarrollo Humano Sostenible. Programa Estado de la Nación. Recuperado de: https://estadonacion.or.cr/informes/

Ministerio de Obras Públicas y Transportes (2003). Decreto No 31363. Reglamento de circulación por carretera con base en el peso y las dimensiones de los vehículos de carga.

Ulloa, Á., Allen, J., Sibaja, D. y Badilla, G. (2008). Determinación de factores camión en pavimentos de Costa Rica. Infraestructura Vial, 10(19), 28-37.

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