Highlights Defines a resilience paradigm in a transportation network context. Applies resilience importance measures to inland waterway commodity flows. Prioritizes disrupted waterway links with perspectives of the two importance measures. Illustrates methodology with a Mississippi River Navigation System case study.
Abstract This work demonstrates a time-dependent paradigm for resilience and associated stochastic metrics in a waterway transportation context. We deploy two stochastic resilience-based component importance measures that highlight the critical waterway links that contribute to waterway network resilience and develop an optimization approach that determines the order in which disrupted links should be recovered for improved resilience. A data-driven case study illustrates these metrics to describe commodity flows along the various links of the US Mississippi River Navigation System.
Importance measures for inland waterway network resilience
2013-11-26
13 pages
Article (Journal)
Electronic Resource
English
Importance measures for inland waterway network resilience
Online Contents | 2014
|Online Contents | 1993
Engineering Index Backfile | 1944
|NTIS | 1970
Online Contents | 1993