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Eicke, A., Khanna, T., & Hirth, L. (2020). Locational investment signals: how to steer the siting of new generation capacity in power systems?. The Energy Journal, 41(1).Search in Google Scholar
Paganini, F., & Mallada, E. (2019). Global analysis of synchronization performance for power systems: bridging the theory-practice gap. IEEE Transactions on Automatic Control, PP(99), 1-1.Search in Google Scholar
Pidaparthy, S. K., Choi, B., & Kim, Y. (2019). A load impedance specification of dc power systems for desired dc-link dynamics and reduced conservativeness. IEEE Transactions on Power Electronics.Search in Google Scholar
Ibrahim, M. S., Dong, W., & Yang, Q. (2020). Machine learning driven smart electric power systems: current trends and new perspectives. Applied Energy, 272, 115237.Search in Google Scholar
Rahmani, S., & Amjady, N. (2017). A new optimal power flow approach for wind energy integrated power systems. Energy, 134, 349-359.Search in Google Scholar
Mder, M., Weiss, O. G., & Boulouchos, K. (2021). Assessing the need for flexibility technologies in decarbonized power systems: a new model applied to central europe. Applied Energy, 282(Part A), 116050.Search in Google Scholar
Bizon, N. (2019). Real-time optimization strategies of fuel cell hybrid power systems based on load-following control: a new strategy, and a comparative study of topologies and fuel economy obtained. Applied Energy, 241(MAY1), 444-460.Search in Google Scholar
Kilzi, A., Farah, J., Nour, C. A., & Douillard, C. (2019). New power minimization techniques in hybrid distributed antenna systems with orthogonal and non-orthogonal multiple access. Electronics Letters.Search in Google Scholar
Killinger, S., Engerer, N., & Mueller, B. (2017). Qcpv: a quality control algorithm for distributed photovoltaic array power output. Solar Energy, 143(FEB.), 120-131.Search in Google Scholar
Liu, Z., Su, C., Hidalen, H. K., & Chen, Z. (2017). A multiagent system-based protection and control scheme for distribution system with distributed-generation integration. IEEE Transactions on Power Delivery, 32(1), 536-545.Search in Google Scholar
Yamashita, D., Tsuno, K., Koike, K., Fujii, K., & Sugiyama, M. (2019). Distributed control of a user-on-demand renewable-energy power-source system using battery and hydrogen hybrid energy-storage devices. International Journal of Hydrogen Energy, 44(50).Search in Google Scholar
Fu, Y., Yi, C., & Chi, W. S. (2017). Distributed power control for the downlink of multi-cell noma systems. IEEE Transactions on Wireless Communications, 16(9), 6207-6220.Search in Google Scholar
Li, P. Liu, Y., Xin, H., & Qi, D. (2018). Vulnerability assessment for cyber-physical system of distribution network in distributed cooperative control mode. Dianli Xitong Zidonghua/Automation of Electric Power Systems, 42(10), 22-29 and 59.Search in Google Scholar
Khodabakhshian, A., Hooshmand, R., & Raisee-Gahrooyi, Y. (2017). A new pseudo load profile determination approach in low voltage distribution networks. IEEE Transactions on Power Systems, 1-1.Search in Google Scholar
Yang, J., Feng, W., Hou, X., Xia, Q., Zhang, X., & Wang, P. (2020). A distributed cooperative control algorithm for optimal power flow and voltage regulation in dc power system. IEEE Transactions on Power Delivery, 35(2), 892-903.Search in Google Scholar
Gaeini, N., Amani, A. M., Jalili, M., & Yu, X. (2017). Cooperative secondary frequency control of distributed generation: the role of data communication network topology. International Journal of Electrical Power & Energy Systems, 92 (nov.), 221-229.Search in Google Scholar
Liu, G., Vrakopoulou, M., & Mancarella, P. (2020). Assessment of the capacity credit of renewables and storage in multi-area power systems. IEEE Transactions on Power Systems, PP(99).Search in Google Scholar
Mea, B., Nb, C., Jmg, C., & Mae, B. (2021). Energy management of controllable loads in multi-area power systems with wind power penetration based on new supervisor fuzzy nonlinear sliding mode control - sciencedirect. Energy.Search in Google Scholar
Benhammane, M., Notton, G., Pichenot, G., Voarino, P., & Ouvrard, D. (2021). Overview of electrical power models for concentrated photovoltaic systems and development of a new operational model with easily accessible inputs. Renewable & sustainable energy reviews (Jan. Pt.2), 135.Search in Google Scholar
Mohammed, Benidris, Joydeep, Mitra, Chanan, & Singh. (2017). Integrated evaluation of reliability and stability of power systems. IEEE Transactions on Power Systems.Search in Google Scholar
Lin, Z., Wen, F., Ding, Y., & Xue, Y. (2018). Wide-area coherency identification of generators in interconnected power systems with renewables. Iet Generation Transmission & Distribution, 11(18), 4444-4455.Search in Google Scholar
Tao, J., Bai, L., Jia, H., & Li, F. (2017). Spectral clustering-based partitioning of volt/var control areas in bulk power systems. Iet Generation Transmission & Distribution, 11(5), 1126-1133.Search in Google Scholar