Bridges are fundamental links for the movement of goods and people and bridge damage can thus have significant impacts on society and the economy. Earthquakes can be extremely destructive and can compromise bridge functionality, which is essential for communities. Evaluation of bridge functionality is thus fundamental in the planning of emergency responses and socioeconomic recovery procedures. It is especially useful to define parameters to assess investments in bridge infrastructure. Resilience is a key parameter that can identify decision making procedures necessary for recovery investments. In this regard, resilience can be defined as the rapidity of a system to return to pre-disaster levels of functionality. This aim of this work was to assess the lack of robust analytical procedures for quantifying systematic restoration for earthquake-damaged bridges, to provide a link between the assessment of resilience and its application in decision making approaches. The proposed methodology (called seismic resilience for recovery investments of bridges) uses functionality–time curves that allow quantification of resilience along with readable findings for a wider range of stakeholders. The results presented in this paper should be of interest to multi-sectorial actors (i.e. bridge owners, transportation authorities and public administrators) and could drive interdisciplinary applications such as the assessment of recovery techniques and solutions.
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September 2024
Research Article|
September 12 2024
Seismic resilience for recovery investments of bridges methodology
Davide Forcellini;
Davide Forcellini
Professor, Civil and Environmental Engineering Department, University of Auckland, Auckland, New Zealand (corresponding author: dfor295@aucklanduni.co.nz)
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Kevin Q. Walsh
Kevin Q. Walsh
Director of Resiliency and Sustainability of Engineering Systems & Assistant Teaching Professor, Department of Civil & Environmental Engineering & Earth Sciences, University of Notre Dame, IN, USA; Senior Structural Engineer, Frost Engineering & Consulting, Mishawaka, IN, USA
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Publisher: Emerald Publishing
Received:
June 10 2021
Accepted:
November 01 2021
Online ISSN: 1751-7664
Print ISSN: 1478-4637
Emerald Publishing Limited: All rights reserved
2024
Proceedings of the Institution of Civil Engineers - Bridge Engineering (2024) 177 (3): 160–172.
Article history
Received:
June 10 2021
Accepted:
November 01 2021
Citation
Forcellini D, Walsh KQ (2024), "Seismic resilience for recovery investments of bridges methodology". Proceedings of the Institution of Civil Engineers - Bridge Engineering, Vol. 177 No. 3 pp. 160–172, doi: https://doi.org/10.1680/jbren.21.00023
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