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Mitigating Interdiction Risk with Fortification

Author

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  • Le Thi Khanh Hien

    (Department of Mathematics and Operational Research, University of Mons, 7000 Mons, Belgium)

  • Melvyn Sim

    (Department of Analytics and Operations, NUS Business School, National University of Singapore, Singapore 119245)

  • Huan Xu

    (Damo Academy of Alibaba, Inc., Bellevue, Washington 98004)

Abstract

We study a network fortification problem on a directed network that channels single-commodity resources to fulfill random demands delivered to a subset of the nodes. For given a realization of demands, the malicious interdictor would disrupt the network in a manner that would maximize the total demand shortfalls subject to the interdictor’s constraints. To mitigate the risk of such shortfalls, a network’s operator can fortify it by providing additional network capacity and/or protecting the nominal capacity. Given the stochastic nature of the demand uncertainty, the goal is to fortify the network, within the operator’s budget constraint, to minimize the expected disutility of the shortfalls in events of interdiction. We model this as a three-level, nonlinear stochastic optimization problem that can be solved via a robust stochastic approximation approach under which each iteration involves solving a linear mixed-integer program. We provide favorable computational results that demonstrate how our fortification strategy effectively mitigates interdiction risks. We also extend the model to multicommodity network with multiple sources and multiple sinks.

Suggested Citation

  • Le Thi Khanh Hien & Melvyn Sim & Huan Xu, 2020. "Mitigating Interdiction Risk with Fortification," Operations Research, INFORMS, vol. 68(2), pages 348-362, March.
    • Handle: RePEc:inm:oropre:v:68:y:2020:i:2:p:348-362
    DOI: 10.1287/opre.2019.1890
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    References listed on IDEAS

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    Cited by:

    1. Xiang, Yin, 2023. "Minimizing the maximal reliable path with a nodal interdiction model considering resource sharing," Reliability Engineering and System Safety, Elsevier, vol. 239(C).

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