Enhancing restoration capabilities of distribution systems is one of the main strategies for resilient power systems to cope with extreme events. However, most of the existing studies assume the communication infrastructures are intact for distribution automation, which is unrealistic. Motivated by the applications of the emergency communication vehicles (ECVs) in quickly setting up wireless communication networks after disasters, in this paper, we propose an integrated distribution system restoration (DSR) framework and optimization models, which can coordinate the repair crews, the distribution system (physical sectors), and the emergency communication (cyber sectors) to pick up unserved power loads as quickly as possible. Case studies validated the effectiveness of the proposed models and proved the benefit of considering ECVs and cyber-physical interdependencies in DSR.

中文翻译：

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考虑网络-物理相互依赖的应急通信车辆促进配电系统恢复

增强配电系统恢复能力是弹性电力系统应对极端事件的主要策略之一。然而，大多数现有研究都假设配电自动化的通信基础设施完好无损，这是不现实的。受应急通信车辆（ECV）在灾后快速建立无线通信网络中的应用的启发，在本文中，我们提出了一种综合配电系统恢复（DSR）框架和优化模型，可以协调维修人员，配电系统（物理部门）和应急通信（网络部门），以尽快获取未服务的电力负载。