Abstract This paper presents operational metrics to determine a passenger transportation system's resilience to terrorism. The metrics range from those specific to the number of trips to more holistic measures that include the contribution of these trips directly and indirectly to economic activity. These metrics can aid decision-makers in rendering more informed judgments about resource allocation and how to design a portfolio of security and recovery strategies. The paper also provides a framework for evaluating transportation risk, including the important role of perceptions in potentially amplifying these risks. It provides a range of strategies to promote resilience as well. Resilience of a transportation system is then quantified using the real-world case of the 2005 London subway and bus bombings. In terms of ordinary resilience, we find that 77.4 percent of total journey reductions on attacked modes were offset by increases in substitute modes for the 4 months following the attacks. We also estimate that 76.9 percent of total journey reductions on attacked modes were the result of a “fear factor,” as opposed to capacity reductions. The paper concludes with a set of proposed prospective resilience measures to evaluate the potential resilience of a transportation system. These metrics are based on the vulnerability, flexibility, and resource availability to cope with a terrorist attack or natural disaster.

    Research Highlights ▶Presentation of operational metrics to estimate a transportation system's resilience and to aid government decision-makers in rendering more informed judgments about resource allocation and design of security and recovery strategy portfolios.▶Definitions of economic resilience and transportation system resilience, as well as articulations of the importance of resilience within the risk equation and the role of public behavioral response in resilience.▶Articulation of methods for calculating economic resilience and application to the case of the London subway and bus bombings of 2007. In terms of ordinary resilience, we find that 77.4 percent of total journey reductions on attacked modes were offset by increases in substitute modes for the 4 months following the attacks. We also estimate that 76.9 percent of total journey reductions on attacked modes were the result of a “fear factor,” as opposed to capacity reductions.▶Proposals for prospective resilience measures to evaluate the potential resilience of a transportation system. These metrics are based on vulnerability, flexibility, and resource availability to cope with a terrorist attack or natural disaster.


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    Title :

    Transportation security and the role of resilience: A foundation for operational metrics


    Contributors:
    Cox, Andrew (author) / Prager, Fynnwin (author) / Rose, Adam (author)

    Published in:

    Transport Policy ; 18 , 2 ; 307-317


    Publication date :

    2010-01-01


    Size :

    11 pages




    Type of media :

    Article (Journal)


    Type of material :

    Electronic Resource


    Language :

    English







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