Online coherency grouping and signal selection enable a discrete LQR and Kalman filter based wide area controller to damp interarea oscillations more effectively in wind-integrated power systems.
Parallel spectral clustering in distributed systems
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An ADMM-based distributed wide-area damping controller is designed via coherency-based area division, local Lagrange-multiplier model estimation, consensus-driven global transfer function, and residue-based loop selection, validated on two-area and IEEE-39 bus systems.
citing papers explorer
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Coherency and Online Signal Selection Based Wide Area Control of Wind Integrated Power Grid
Online coherency grouping and signal selection enable a discrete LQR and Kalman filter based wide area controller to damp interarea oscillations more effectively in wind-integrated power systems.
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Alternating Direction Method of Multipliers (ADMMs) Based Distributed Approach For Wide-Area Control
An ADMM-based distributed wide-area damping controller is designed via coherency-based area division, local Lagrange-multiplier model estimation, consensus-driven global transfer function, and residue-based loop selection, validated on two-area and IEEE-39 bus systems.