Abstract
The traditional secondary control of microgrids discussed in Chap. 2 exploits a centralized control structure .
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References
Ahuja RK, Magnanti TL, Orlin JB (1993) Network flows: theory, algorithms, and applications. Prentice Hall, Englewood Cliffs
Bassi E, Benzi F, Lusetti L, Buja GS (1995) Communication protocols for electrical drives. In: Proceedings of the 21st international conference on industrial electronics (IECON), pp 706–711
Bidram A, Davoudi A (2012) Hierarchical structure of microgrids control system. IEEE Trans Smart Grid 3:1963–1976
Bidram A, Davoudi A, Lewis FL, Guerrero JM (2013) Distributed cooperative secondary control of microgrids using feedback linearization. IEEE Trans Power Syst 28:3462–3470
Bidram A, Davoudi A, Lewis FL, Qu Z (2013) Secondary control of microgrids based on distributed cooperative control of multi-agent systems. IET Gener Transm Distrib 7:822–831
Bidram A, Lewis FL, Davoudi A (2014) Synchronization of nonlinear heterogeneous cooperative systems using input–output feedback linearization. Automatica 50:2578–2585
Brewer JW (1978) Kronecker products and matrix calculus in system theory. IEEE Trans Circuits Syst 25:772–781
Burkard R, Dell’Amico M, Martello S (2009) Assignment problems. SIAM, Philadelphia
Fax J, Murray R (2004) Information flow and cooperative control of vehicle formations. IEEE Trans Autom Control 49:1465–1476
Guerrero JM, Vásquez JC, Matas J, Castilla M, Vicuña LGD, Castilla M (2011) Hierarchical control of droop-controlled AC and DC microgrids—a general approach toward standardization. IEEE Trans Ind Electron 58:158–172
Hui Q, Haddad W (2008) Distributed nonlinear control algorithms for network consensus. Automatica 42:2375–2381
Jadbabaie A, Lin J, Morse AS (2003) Coordination of groups of mobile autonomous agents using nearest neighbor rules. IEEE Trans Autom Control 48:988–1001
Mehrizi-Sani A, Iravani R (2010) Potential-function based control of a microgrid in islanded and grid-connected models. IEEE Trans Power Syst 25:1883–1891
Qu Z (2009) Cooperative control of dynamical systems: applications to autonomous vehicles. Springer, New York
Slotine JJE, Li W (2009) Applied nonlinear control. Prentice-Hall, New Jersey
Yang Q, Barria JA, Green TC (2011) Communication infrastructures for distributed control of power distribution networks. IEEE Trans Industr Inf 7:316–327
Zhang H, Lewis FL (2012) Adaptive cooperative tracking control of higher-order nonlinear systems with unknown dynamics. Automatica 48:1432–1439
Zhang H, Lewis FL, Das A (2011) Optimal design for synchronization of cooperative systems: State feedback, observer, and output feedback. IEEE Trans Autom Control 56:1948–1952
Bidram A, Davoudi A, Lewis FL, Ge SS (2014) Distributed adaptive voltage control of inverter-based microgrids. IEEE Trans Energy Convers 29:862–872
Bidram A, Lewis F, Davoudi A (2014) Distributed control systems for small-scale power networks: using multiagent cooperative control theory. IEEE Control Systems 34(6):56–77.
Bidram A, Davoudi A, Lewis F (2014) A multi-objective distributed control framework for islanded microgrids. IEEE Trans Ind Inform 10:1785–1798.
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Bidram, A., Nasirian, V., Davoudi, A., Lewis, F.L. (2017). Distributed Control of AC Microgrids. In: Cooperative Synchronization in Distributed Microgrid Control. Advances in Industrial Control. Springer, Cham. https://doi.org/10.1007/978-3-319-50808-5_4
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DOI: https://doi.org/10.1007/978-3-319-50808-5_4
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