A DRL-Based Load Shedding Strategy Considering Communication Delay for Mitigating Power Grid Cascading Failure

Wei, Yimin; Tian, Anqi; Jiang, Yunbin; Zhang, Wenjian; Ma, Lixiang; Ma, Liang; Sun, Chuen-Tsai; Sun, Jian

doi:10.3390/electronics12143024

Cited by 3 publications

(1 citation statement)

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“…The power communication network swiftly transmits business data, such as power consumption information and distribution automation data, from power grid equipment to the control center. Based on the real-time data transmission and continuous monitoring of power grid operations facilitated by the power communication network, network operation personnel can efficiently conduct power grid topology analysis, understand the structure and operational status of the power grid, and ensure its normal operation [2].…”

Section: Introductionmentioning

confidence: 99%

Research on a Unified Data Model for Power Grids and Communication Networks Based on Graph Databases

Li,

Yang,

Liu

et al. 2024

Electronics

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With the continuous development of the power grid, its structure is becoming increasingly complex. The occurrence of faults in transmission lines may lead to cascading failures in the power grid, ultimately resulting in widespread power outages. The transmission of equipment information and the sending of fault reports in the power grid rely on the power communication network. This network is crucial for ensuring the safe, stable, and economical operation of the power grid. As the number of devices in the power grid increases and sensor technology becomes more widespread, the volume of data generated by both the power grid and the power communication network has increased sharply. However, relational databases have limited scalability and struggle to meet the growing volume of data and user demands. This paper proposes a graph mapping method based on the power grid and communication network, utilizing data from both networks to construct a unified data plane in a graph database. Taking power transfer operations as an example, a unified standard data model and monitoring indicator system are established for both networks, enabling faster response and power restoration to blackout areas in the event of power grid faults. Simulation results demonstrate that compared to traditional relational databases, graph databases exhibit significantly improved efficiency in handling large-scale, highly connected data, making them more suitable for future power grids.

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Section: Introductionmentioning

confidence: 99%