Archivio Istituzionale della RicercaThis research proposes a framework that allows to define a debris removal strategy from a road transportation network after a seismic event. The case study is a hypothetical large-scale city consisting of many interdependent infrastructure. Once the debris generated by the collapse of buildings have been estimated, blocked roads are identified. Cleanup operations are then prioritized based on road importance and travel time. The goal is to first verify that evacuation routes and important paths connecting strategic facilities such as hospitals, shelters, fire stations, etc., are available. In case some roads within these paths are blocked, alternative routes are considered. If the pre-event travel time does not significantly increase, clearing equipment and resources could be managed accordingly and directed towards other areas. The objective of this work is to help emergency managers to successfully improve disaster response avoiding delays during rescue and recovery operations.
Managing debris clearance from road transportation networks after earthquakes / Cardoni, A.; Marasco, S.; Domaneschi, M.; Cimellaro, G. P.. - 1:(2022), pp. 948-955. (Intervento presentato al convegno Lifelines 2022 Conference: 1971 San Fernando Earthquake and Lifeline Infrastructure tenutosi a Los Angeles (Usa) nel 31 January 2022 through 11 February 2022) [10.1061/9780784484432.084].
Managing debris clearance from road transportation networks after earthquakes
Cardoni A.;Marasco S.;Domaneschi M.;Cimellaro G. P.
2022
Abstract
This research proposes a framework that allows to define a debris removal strategy from a road transportation network after a seismic event. The case study is a hypothetical large-scale city consisting of many interdependent infrastructure. Once the debris generated by the collapse of buildings have been estimated, blocked roads are identified. Cleanup operations are then prioritized based on road importance and travel time. The goal is to first verify that evacuation routes and important paths connecting strategic facilities such as hospitals, shelters, fire stations, etc., are available. In case some roads within these paths are blocked, alternative routes are considered. If the pre-event travel time does not significantly increase, clearing equipment and resources could be managed accordingly and directed towards other areas. The objective of this work is to help emergency managers to successfully improve disaster response avoiding delays during rescue and recovery operations.
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LIFELINES 20-21 debris management.pdf
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https://hdl.handle.net/11583/2986151