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A cyber-enabled parametric control scheme is proposed for efficient transient frequency and phase stabilization in the power grid. Different implementations of the proposed control are investigated in this work. First, a centralized control scheme is proposed where the controller relies on timely phasor measurement unit (PMU) information about the grid to employ fast-acting energy storage systems...
A parametric controller is proposed for the frequency and phase stabilization after the occurrence of a disturbance in the power grid. The proposed controller is based on the feedback linearization control theory. To drive the frequency of the system generators to stability, the controller relies on receiving timely phasor measurement unit (PMU) readings about the power grid to employ fast-acting...
Flocking control has recently been used in smart grid applications to stabilize power systems during a transient instability period. Based on consensus and cooperation of multi-agent control systems, flocking control uses cyber information about the power system to help achieve stability after the occurrence of a fault in the power system. Recent work showed that such controller can be useful in a...
A flocking-based control strategy has recently been proposed to stabilize power systems during transient instability. The flocking paradigm offers a rich understanding of the coupling and interactions between the cyber and physical system components and employs this insight to build more intelligent distributed control schemes. This article investigates the performance of flocking-based control in...
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