A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Sustainability-informed maintenance optimization of highway bridges considering multi-attribute utility and risk attitude
Highlights A single sustainability performance indicator is proposed for highway bridges. A robust sustainability-informed decision support framework is presented. Optimal maintenance plans are found considering multi-attribute utility theory. The risk attitude of the decision maker affects optimal intervention strategies.
Abstract Throughout their service life, highway bridges deteriorate due to increasing traffic loads and aggressive environmental conditions. Aging of materials can have significant effects on the structural performance of highway bridges. A comprehensive risk assessment procedure is crucial in evaluating and ultimately mitigating detrimental consequences of structural failure to the economy, society, and the environment. The proposed sustainability-based maintenance optimization decision-support framework provides decision makers with optimal life-cycle maintenance actions that balance conflicting objectives. Utility theory is employed herein in order to effectively capture the sustainability performance of highway bridges and impact of the decision maker’s risk attitude. The main objective of this framework is to reduce the extent of the consequences of structural failure to the economy, society, and the surrounding environment. The capabilities of the proposed approach are demonstrated on an existing highway bridge.
Sustainability-informed maintenance optimization of highway bridges considering multi-attribute utility and risk attitude
Highlights A single sustainability performance indicator is proposed for highway bridges. A robust sustainability-informed decision support framework is presented. Optimal maintenance plans are found considering multi-attribute utility theory. The risk attitude of the decision maker affects optimal intervention strategies.
Abstract Throughout their service life, highway bridges deteriorate due to increasing traffic loads and aggressive environmental conditions. Aging of materials can have significant effects on the structural performance of highway bridges. A comprehensive risk assessment procedure is crucial in evaluating and ultimately mitigating detrimental consequences of structural failure to the economy, society, and the environment. The proposed sustainability-based maintenance optimization decision-support framework provides decision makers with optimal life-cycle maintenance actions that balance conflicting objectives. Utility theory is employed herein in order to effectively capture the sustainability performance of highway bridges and impact of the decision maker’s risk attitude. The main objective of this framework is to reduce the extent of the consequences of structural failure to the economy, society, and the surrounding environment. The capabilities of the proposed approach are demonstrated on an existing highway bridge.
Sustainability-informed maintenance optimization of highway bridges considering multi-attribute utility and risk attitude
Sabatino, Samantha (author) / Frangopol, Dan M. (author) / Dong, You (author)
Engineering Structures ; 102 ; 310-321
2015-07-20
12 pages
Article (Journal)
Electronic Resource
English
Network level bridges maintenance planning using Multi-Attribute Utility Theory
| Taylor & Francis Verlag | 2019
Optimum maintenance of existing concrete bridges based on multi-attribute utility approach
| British Library Conference Proceedings | 1998