Presents an equilibrium-free contraction stability method for GFM converter microgrids via symmetry-aware projection and blockwise Jacobian decomposition, yielding forward-invariant certificates for autonomous and disturbed operation.
Foundations and challenges of low-inertia systems (invited paper)
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An admittance-guided optimization using harmonic perturbations and a physics-informed neural network identifies the worst-case dispatch command that drives a microgrid into sub-synchronous oscillations.
Introduces Forming Index for device-level GFM quantification and multi-bus voltage stiffness metric for system strength, with a formal proof that GFM converters improve strength.
citing papers explorer
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Equilibrium-Free Contraction Stability Analysis for Grid-Forming Converter-Based Microgrids
Presents an equilibrium-free contraction stability method for GFM converter microgrids via symmetry-aware projection and blockwise Jacobian decomposition, yielding forward-invariant certificates for autonomous and disturbed operation.
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Admittance-Guided Inverter Dispatch Command Manipulation Attack: A Grid Stability-Oriented Approach
An admittance-guided optimization using harmonic perturbations and a physics-informed neural network identifies the worst-case dispatch command that drives a microgrid into sub-synchronous oscillations.
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Quantifying Grid-Forming Behavior: Bridging Device-Level Dynamics and System-Level Strength
Introduces Forming Index for device-level GFM quantification and multi-bus voltage stiffness metric for system strength, with a formal proof that GFM converters improve strength.