Abstract
This paper investigates the distributed load frequency control (LFC) for multi-area power systems with communication switching topologies and data transmission time-delays. For stabilizing the power flow frequency while encompassing situations of seldom subsystem disconnections, a decentralized Markov switching control scheme is proposed. To further reduce conservative of the controller, a time-delay equipartition technique is developed. In addition, the distributed cooperative control (DCC) scheme is also discussed and proved to be unsuitable as a LFC strategy. Finally, illustrative examples are provided to validate effectiveness of the proposed methods.
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References
Fang, X., Misra, S., Xue, G.L., Yang, D.J.: Smart grid? The new and improved power grid: a survey. IEEE Commun. Surv. Tutor. 14(4), 944–980 (2012)
Erol-Kantarci, M., Mouftah, H.T.: Energy-efficient information and communication infrastructures in the smart grid: a survey on interactions and open issues. IEEE Commun. Surv. Tutor. 17(1), 179–197 (2015)
Siano, P.: Demand response and smart grids - a survey. Renew. Sustain. Energy Rev. 30, 461–478 (2014)
Wang, W.Y., Xu, Y., Khanna, M.: A survey on the communication architectures in smart grid. Comput. Netw. 55, 3604–3629 (2011)
Pandey, S.K., Mohanty, S.R., Kishor, N.: A literature survey on load frequency control for conventional and distribution generation power systems. Renew. Sustain. Energy Rev. 25, 318–334 (2013)
Saxena, S., Hote, Y.V.: Load frequency control in power systems via internal model control scheme and model-order reduction. IEEE Trans. Power Syst. 28(3), 2749–2757 (2013)
Vachirasricirikul, S., Ngamroo, I.: Robust LFC in a smart grid with wind power penetration by coordinated V2G control and frequency controller. IEEE Trans. Smart Grid 5(1), 371–380 (2014)
Mi, Y., Fu, Y., Wang, C.S., Wang, P.: Decentralized sliding mode load frequency control for multi-area power systems. IEEE Trans. Power Syst. 28(4), 4301–4309 (2013)
Yousef, H.A., AL-Kharusi, K., Albadi, M.H., Hosseinzadeh, N.: Load frequency control of a multi-area power system: an adaptive fuzzy logic approach. IEEE Trans. Power Syst. 29(4), 1822–1830 (2014)
Yan, H.C., Qian, F.F., Zhang, H., Yang, F.W., Guo, G.: \(H_\infty \) fault detection for networked mechanical spring-mass systems with incomplete information. IEEE Trans. Ind. Electron. 63(9), 5622–5631 (2014)
Peng, C., Li, L.C., Fei, M.R.: Resilient event-triggered HN load frequency control for networked power systems with energy limited DoS attacks, IEEE Trans. Power Syst. (2017, in press)
Liu, S.C., Liu, X.P.P., Saddik, A.E.: Modeling and distributed gain scheduling strategy for load frequency control in smart grids with communication topology changes. ISA Trans. 53, 454–461 (2014)
Wen, S., Yu, X.H., Zeng, Z.G., Wang, J.J.: Event-triggering load frequency control for multi-area power systems with communication delays. IEEE Trans. Ind. Electron. 63(2), 1308–1317 (2016)
Shamsi, P., Fahimi, B.: Stability assessment of a DC distribution network in a hybrid micro-grid application. IEEE Trans. Smart Grid 5(5), 2527–2534 (2014)
Alobeidli, K.A., Syed, M.H., Moursi, M.S.E., Zeineldi, H.H.: Novel coordinated voltage control for hybrid micro-grid with sslanding capability. IEEE Trans. Smart Grid 6(3), 1116–1127 (2015)
Patrinos, P., Sopasakis, P., Sarimveis, H., Bemporad, A.: Stochastic model predictive control for constrained discrete-time Markovian switching systems. Automatica 50(10), 2504–2514 (2014)
Li, W.Q., Wu, Z.J.: Output tracking of stochastic high-order nonlinear systems with Markovian switching. IEEE Trans. Autom. Control 58(6), 1585–1590 (2013)
Hu, S.L., Yue, D., Xie, X.P., Du, Z.P.: Event-triggered \(H_\infty \) stabilization for networked stochastic systems with multiplicative noise and network-induced delays. Inf. Sci. 299, 178–197 (2015)
Tian, E.G., Wong, W.K., Yue, D.: Robust \(H_\infty \) control for switched systems with input delays: a sojourn-probability-dependent method. Inf. Sci. 283, 22–35 (2014)
Acknowledgments
This work was supported by the Open Project of State Key Laboratory of Traction Power, Southwest Jiaotong University (TPL1604).
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Cui, Y., Shi, G., Xu, L., Zhang, X., Li, X. (2017). Decentralized H\(_\infty \) Load Frequency Control for Multi-area Power Systems with Communication Uncertainties. In: Li, K., Xue, Y., Cui, S., Niu, Q., Yang, Z., Luk, P. (eds) Advanced Computational Methods in Energy, Power, Electric Vehicles, and Their Integration. ICSEE LSMS 2017 2017. Communications in Computer and Information Science, vol 763. Springer, Singapore. https://doi.org/10.1007/978-981-10-6364-0_43
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DOI: https://doi.org/10.1007/978-981-10-6364-0_43
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