A two-stage stochastic multi-objective resilience optimization model for network expansion of interdependent power–water networks under disruption

IF 4.1 3区工程技术 Q1 COMPUTER SCIENCE, INFORMATION SYSTEMS

International Journal of Critical Infrastructure Protection Pub Date : 2023-03-01 DOI:10.1016/j.ijcip.2023.100588

Achara Tiong, Hector A. Vergara

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引用次数: 5

Abstract

Network expansion of interdependent critical infrastructures under disruption uncertainty is modeled as a mixed-integer two-stage stochastic multi-objective optimization program. In this model, expected total cost and expected post-disaster resilience are considered competing objectives. Network resilience is quantified through network complexity and unmet demand. Functional relationships between critical infrastructures are modeled using a network-based approach with the physical interdependency enforced through demand constraints. Uncertainty is introduced as a set of random parameters corresponding to disruption scenarios. The proposed model is demonstrated in a case study of coupled power–water networks with the power flow in the grid modeled using linear DC power flow approximation equations. The deterministic-equivalent multi-objective model is solved using the augmented $ϵ$ -constraint method. Solutions from stochastic and deterministic models are compared and the value of stochastic optimization is discussed.

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基于两阶段随机多目标优化模型的相互依赖的水电网络在中断情况下的网络扩展

将相互依赖的关键基础设施在中断不确定性下的网络扩展建模为混合整数两阶段随机多目标优化程序。在该模型中，预期总成本和预期灾后复原力被视为相互竞争的目标。网络弹性是通过网络复杂性和未满足的需求来量化的。关键基础设施之间的功能关系是使用基于网络的方法建模的，通过需求约束来实现物理相互依赖性。不确定性被引入为一组与中断场景相对应的随机参数。所提出的模型在电力-水耦合网络的案例研究中得到了验证，其中电网中的潮流使用线性直流潮流近似方程建模。使用增广的ε-约束方法求解确定性等价多目标模型。比较了随机模型和确定性模型的解，并讨论了随机优化的价值。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

International Journal of Critical Infrastructure Protection COMPUTER SCIENCE, INFORMATION SYSTEMS-ENGINEERING, MULTIDISCIPLINARY

CiteScore

8.90

自引率

5.60%

发文量

审稿时长

>12 weeks

期刊介绍： The International Journal of Critical Infrastructure Protection (IJCIP) was launched in 2008, with the primary aim of publishing scholarly papers of the highest quality in all areas of critical infrastructure protection. Of particular interest are articles that weave science, technology, law and policy to craft sophisticated yet practical solutions for securing assets in the various critical infrastructure sectors. These critical infrastructure sectors include: information technology, telecommunications, energy, banking and finance, transportation systems, chemicals, critical manufacturing, agriculture and food, defense industrial base, public health and health care, national monuments and icons, drinking water and water treatment systems, commercial facilities, dams, emergency services, nuclear reactors, materials and waste, postal and shipping, and government facilities. Protecting and ensuring the continuity of operation of critical infrastructure assets are vital to national security, public health and safety, economic vitality, and societal wellbeing. The scope of the journal includes, but is not limited to: 1. Analysis of security challenges that are unique or common to the various infrastructure sectors. 2. Identification of core security principles and techniques that can be applied to critical infrastructure protection. 3. Elucidation of the dependencies and interdependencies existing between infrastructure sectors and techniques for mitigating the devastating effects of cascading failures. 4. Creation of sophisticated, yet practical, solutions, for critical infrastructure protection that involve mathematical, scientific and engineering techniques, economic and social science methods, and/or legal and public policy constructs.