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Resilient transactive control for systems with high wind penetration based on cloud computing
Rayati, M ; Sharif University of Technology
632
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- Type of Document: Article
- DOI: 10.1109/TII.2017.2759223
- Abstract:
- One of the main shortcomings, caused by high penetration of wind power, is intermittency of generation. For integrating high penetration of wind power, the frequency regulation and the transactive control systems are modified to be sufficiently resilient against fluctuations of wind power and malicious cyber threats. Here, a hierarchical state-space model is presented for the frequency regulation and the transactive control systems in a smart grid environment. To achieve a resilient control, a framework based on cloud computing is proposed for the communication network. Benefits and challenges of the cloud-based framework are also described in this paper. To optimize the operation of the proposed framework, control parameters are tuned robustly by using the edge theorem. Finally, the performance of proposed control system is evaluated in the case study section. IEEE
- Keywords:
- Frequency control ; Frequency regulation ; Mathematical model ; Robustness ; Transactive control ; Wind power generation ; Cloud computing ; Computation theory ; Control systems ; Distributed computer systems ; Electric frequency control ; Electric power generation ; Hierarchical systems ; Mathematical models ; Network function virtualization ; State space methods ; Wind power ; Control parameters ; Frequency regulations ; Hierarchical state ; Informatics ; Intermittency ; Resilience ; Resilient control ; Transactive controls ; Robustness (control systems)
- Source: IEEE Transactions on Industrial Informatics ; 2017 ; 15513203 (ISSN)
- URL: https://ieeexplore.ieee.org/document/8059843