Determining hydraulic conductivity parameters of porous asphalt concrete using Bayesian parameter estimation

Kook Hwan Cho; Sungho Mun

doi:10.1007/s12205-014-1315-3

Determining hydraulic conductivity parameters of porous asphalt concrete using Bayesian parameter estimation

Kook Hwan Cho, Sungho Mun

Research output: Contribution to journal › Article › peer-review

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Abstract

We describe a technique to determine the hydraulic conductivity parameters of porous asphalt concrete using Bayesian parameter estimation. Three existing models were employed, and variables were assigned as statistical Bayesian parameters based on the Latin hypercube sampling approach. A thousand samples of randomly generated parameters were sorted, and samples of each variable were selected at stochastic intervals. A sequence of integers for each variable was generated to represent a random permutation of the integers, resulting in a set of sample parameters. Using these parameters, the three models were evaluated based on a comparison between the measured and predicted data. Finally, the appropriate model can be used to perform the stormwater management analysis of urban areas in terms of the probabilistic parameters obtained from the Bayesian updating scheme.

Original language	English
Pages (from-to)	1277-1281
Number of pages	5
Journal	KSCE Journal of Civil Engineering
Volume	19
Issue number	5
DOIs	https://doi.org/10.1007/s12205-014-1315-3
State	Published - 29 Jul 2015

Keywords

bayesian parameter estimation
hydraulic conductivity
latin hypercube
porous asphalt

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10.1007/s12205-014-1315-3

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title = "Determining hydraulic conductivity parameters of porous asphalt concrete using Bayesian parameter estimation",

abstract = "We describe a technique to determine the hydraulic conductivity parameters of porous asphalt concrete using Bayesian parameter estimation. Three existing models were employed, and variables were assigned as statistical Bayesian parameters based on the Latin hypercube sampling approach. A thousand samples of randomly generated parameters were sorted, and samples of each variable were selected at stochastic intervals. A sequence of integers for each variable was generated to represent a random permutation of the integers, resulting in a set of sample parameters. Using these parameters, the three models were evaluated based on a comparison between the measured and predicted data. Finally, the appropriate model can be used to perform the stormwater management analysis of urban areas in terms of the probabilistic parameters obtained from the Bayesian updating scheme.",

keywords = "bayesian parameter estimation, hydraulic conductivity, latin hypercube, porous asphalt",

author = "Cho, \{Kook Hwan\} and Sungho Mun",

note = "Publisher Copyright: {\textcopyright} 2015, Korean Society of Civil Engineers and Springer-Verlag Berlin Heidelberg.",

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AU - Mun, Sungho

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N2 - We describe a technique to determine the hydraulic conductivity parameters of porous asphalt concrete using Bayesian parameter estimation. Three existing models were employed, and variables were assigned as statistical Bayesian parameters based on the Latin hypercube sampling approach. A thousand samples of randomly generated parameters were sorted, and samples of each variable were selected at stochastic intervals. A sequence of integers for each variable was generated to represent a random permutation of the integers, resulting in a set of sample parameters. Using these parameters, the three models were evaluated based on a comparison between the measured and predicted data. Finally, the appropriate model can be used to perform the stormwater management analysis of urban areas in terms of the probabilistic parameters obtained from the Bayesian updating scheme.

AB - We describe a technique to determine the hydraulic conductivity parameters of porous asphalt concrete using Bayesian parameter estimation. Three existing models were employed, and variables were assigned as statistical Bayesian parameters based on the Latin hypercube sampling approach. A thousand samples of randomly generated parameters were sorted, and samples of each variable were selected at stochastic intervals. A sequence of integers for each variable was generated to represent a random permutation of the integers, resulting in a set of sample parameters. Using these parameters, the three models were evaluated based on a comparison between the measured and predicted data. Finally, the appropriate model can be used to perform the stormwater management analysis of urban areas in terms of the probabilistic parameters obtained from the Bayesian updating scheme.

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KW - hydraulic conductivity

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JO - KSCE Journal of Civil Engineering

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ER -

Determining hydraulic conductivity parameters of porous asphalt concrete using Bayesian parameter estimation

Abstract

Keywords

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