Markov-based models for predicting deterioration for civil infrastructures are widely recognized as suitable tools addressing this mechanism. The objective of this paper is to provide insights regarding a network of orthotropic steel bridges in terms of degradation. Consequently, a model combining a dynamic Bayesian network and a Markov chain is first introduced that builds up the network in a concise way. In an attempt to represent a network composed of two general classes of orthotropic steel bridges, the classical method of structured expert judgment is carried out as a quantification procedure. The first objective is to indirectly elicit transition probabilities for a Markov chain that probabilistically describes how each type bridge temporally deteriorates. Second, experts are asked to provide estimates on required conditional probabilities related to the Bayesian network. An in-depth analysis of the results is presented so that remarks and observations are subsequently pointed out and, finally conclusions are drawn.
|Titel||IALCCE 2016: The Fifth International Symposium on Life-Cycle Civil Engineering, 16-19 September 2016, Delft, The Netherlands|
|Status||Gepubliceerd - 16 okt 2016|
Kosgodagan, A., Morales-Napoles, O., Maljaars, J., & Courage, W. M. G. (2016). Expert judgment in life-cycle degradation and maintenance modelling for steel bridges. In IALCCE 2016: The Fifth International Symposium on Life-Cycle Civil Engineering, 16-19 September 2016, Delft, The Netherlands (blz. 1-7).