We present a framework based on spectral graph theory that captures the interplay among network topology, system inertia, and generator and load damping in determining the overall grid behavior and performance. Specifically, we show that the impact of network topology on a power system can be quantified through the network Laplacian eigenvalues, and such eigenvalues determine the grid robustness against low frequency disturbances. Moreover, we can explicitly decompose the frequency signal along scaled Laplacian eigenvectors when damping-inertia ratios are uniform across buses. The insight revealed by this framework partially explains why load-side participation in frequency regulation not only makes the system respond faster, but also helps...
This paper combines the fundamentals of an electrical grid, such as flow allocation according to Kir...
Cascading failures are one of the main reasons for blackouts in electric power transmission grids. T...
The ongoing energy transition challenges the stability of the electrical power system. Stable operat...
We present a framework based on spectral graph theory that captures the interplay among network topo...
Power system reliability is a crucial component in the development of sustainable infrastructure. Be...
The power system network topology influences the system frequency response to power imbalance distur...
We give a full characterization using spectral graph theory of the controllability and observability...
We present a preliminary theoretical framework based on spectral graph theory that captures how the ...
We present a systematic method to design ubiquitous continuous fast-acting distributed load control ...
Frequency control rebalances supply and demand while maintaining the network state within operationa...
WOS:000543049900114International audiencePower flows in transmission networks are driven by the stru...
Conventional generators in power grids are steadily substituted with new renewable sources of electr...
We present a systematic method for designing distributed generation and demand control schemes for s...
Abstract—The spectrum of the Laplacian matrix of a network plays a key role in a wide range of dynam...
Conventional generators in power grids are steadily substituted with new renewable sources of electr...
This paper combines the fundamentals of an electrical grid, such as flow allocation according to Kir...
Cascading failures are one of the main reasons for blackouts in electric power transmission grids. T...
The ongoing energy transition challenges the stability of the electrical power system. Stable operat...
We present a framework based on spectral graph theory that captures the interplay among network topo...
Power system reliability is a crucial component in the development of sustainable infrastructure. Be...
The power system network topology influences the system frequency response to power imbalance distur...
We give a full characterization using spectral graph theory of the controllability and observability...
We present a preliminary theoretical framework based on spectral graph theory that captures how the ...
We present a systematic method to design ubiquitous continuous fast-acting distributed load control ...
Frequency control rebalances supply and demand while maintaining the network state within operationa...
WOS:000543049900114International audiencePower flows in transmission networks are driven by the stru...
Conventional generators in power grids are steadily substituted with new renewable sources of electr...
We present a systematic method for designing distributed generation and demand control schemes for s...
Abstract—The spectrum of the Laplacian matrix of a network plays a key role in a wide range of dynam...
Conventional generators in power grids are steadily substituted with new renewable sources of electr...
This paper combines the fundamentals of an electrical grid, such as flow allocation according to Kir...
Cascading failures are one of the main reasons for blackouts in electric power transmission grids. T...
The ongoing energy transition challenges the stability of the electrical power system. Stable operat...