Data-driven resilience assessment for transport infrastructure exposed to multiple hazards by integrating multiscale terrestrial and airborne monitoring systems
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Argyroudis, S.A., Achillopoulou, D.V., Livina, V. and Mitoulis, S.A. (2021) Data-driven resilience assessment for transport infrastructure exposed to multiple hazards by integrating multiscale terrestrial and airborne monitoring systems In: IABMAS 2020: 10th International conference on Bridge Maintenance, Safety and Management, 11-15 Apr 2021, Sapporo, Japan.
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Data-driven resilience assessment - AAM.pdf - Accepted version Manuscript Restricted to Repository staff only until 11 April 2021. Download (1MB) |
Abstract
The exposure of critical transport infrastructure to natural hazards and climate change effects has severe consequences on world economies and societies and, thus, safety and resiliency of transport networks are of paramount importance. The currently available frameworks for quantitative risk and resiliencebased design and assessment have been mainly developed for bridges exposed to earthquakes. However, there is an absence of well-informed exposure, vulnerability, functionality and recovery models, which are the main components in the quantification of resilience. The present paper proposes an integrated framework for the data- driven resilience assessment of transport infrastructure exposed to multiple hazards by using multiscale monitoring data, such as terrestrial and airborne data, as well as open-access crowd data and environmental measurements. Monitoring and early warnings are expected to produce accurate and rapidly informed quantitative risk and resilience assessments for transport infrastructure and to enhance asset management. Therefore, this framework aims to facilitate stakeholders’ decision-making for daily and catastrophic events and to support adaptation and preparedness with preventive and/or retrofitting measures against multiple hazards.
| Item Type: | Conference or Workshop Item (Conference Paper) | |||||||||||||||
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| Divisions : | Faculty of Engineering and Physical Sciences > Civil and Environmental Engineering | |||||||||||||||
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| Date : | 2021 | |||||||||||||||
| Funders : | European Union H2020-Marie Skłodowska-Curie Research Grants Scheme | |||||||||||||||
| Grant Title : | MSCAIF- 2016 | |||||||||||||||
| Copyright Disclaimer : | © 2020 The Authors. | |||||||||||||||
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| Depositing User : | Clive Harris | |||||||||||||||
| Date Deposited : | 07 Sep 2020 22:05 | |||||||||||||||
| Last Modified : | 07 Sep 2020 22:05 | |||||||||||||||
| URI: | http://epubs.surrey.ac.uk/id/eprint/858554 |
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