Dissipativity analysis with the S-procedure yields LMI conditions for simultaneous design of PI controllers with anti-windup, consensus gains, and communication topology in nonlinear DC microgrids.
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A dissipativity-based convex LMI framework co-designs distributed droop-free controllers and sparse communication topologies for robust voltage, frequency, and proportional power control in islanded AC microgrids.
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Dissipativity-Based Distributed Control and Communication Topology Co-Design for Nonlinear DC Microgrids
Dissipativity analysis with the S-procedure yields LMI conditions for simultaneous design of PI controllers with anti-windup, consensus gains, and communication topology in nonlinear DC microgrids.
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Dissipativity-Based Synthesis of Distributed Control and Communication Topology Co-Design for AC Microgrids
A dissipativity-based convex LMI framework co-designs distributed droop-free controllers and sparse communication topologies for robust voltage, frequency, and proportional power control in islanded AC microgrids.