A scalable and analytically tractable probabilistic model for the cascading failure dynamics in power grids is constructed while retaining key physical attributes and operating characteristics of the power grid. The approach is based upon extracting a reduced abstraction of large-scale power grids using a small number of aggregate state variables while modeling the system dynamics using a continuous-time Markov chain. The aggregate state variables represent critical power-grid attributes, which have been shown, from prior simulation-based and historical-data-based analysis, to strongly influence the cascading behavior. The transition rates among states are formulated in terms of certain parameters that capture grid\u27s operating characteri...
Despite the reliability of modern power systems, large blackouts due to cascading failures (CFs) do ...
For a power system operating in the vicinity of the power transfer limit of its transmission system,...
The risk of cascading blackouts greatly relies on failure probabilities of individual components in ...
Emerging smart grids consist of tightly-coupled systems, namely a power grid and a communication sys...
In this paper, a novel analytical model is proposed to predict the average transmission-capacity los...
The reliable operation of power grids during cascading failures is heavily dependent on the interdep...
We introduce a new microscopic model of the outages in transmission power grids. This model accounts...
Inspired by reliability issues in electric transmission networks, we use a probabilistic approach to...
The reliability of electric transmission systems is challenged by the recent deployment of intermitt...
Human operators play a key role in the reliable operation of critical infrastructures. However, huma...
To systematically study key factors affecting cascading failures in power systems, this paper advanc...
Human operators play a key role in the reliable operation of critical infrastructures. However, huma...
We present the failure analysis of a study case of a high-voltage power transmission network using t...
Although there has been notable progress in modeling cascading failures in power grids, few works in...
This paper presents several enhancements on a mixed OPF-stochastic cascading failure model to study ...
Despite the reliability of modern power systems, large blackouts due to cascading failures (CFs) do ...
For a power system operating in the vicinity of the power transfer limit of its transmission system,...
The risk of cascading blackouts greatly relies on failure probabilities of individual components in ...
Emerging smart grids consist of tightly-coupled systems, namely a power grid and a communication sys...
In this paper, a novel analytical model is proposed to predict the average transmission-capacity los...
The reliable operation of power grids during cascading failures is heavily dependent on the interdep...
We introduce a new microscopic model of the outages in transmission power grids. This model accounts...
Inspired by reliability issues in electric transmission networks, we use a probabilistic approach to...
The reliability of electric transmission systems is challenged by the recent deployment of intermitt...
Human operators play a key role in the reliable operation of critical infrastructures. However, huma...
To systematically study key factors affecting cascading failures in power systems, this paper advanc...
Human operators play a key role in the reliable operation of critical infrastructures. However, huma...
We present the failure analysis of a study case of a high-voltage power transmission network using t...
Although there has been notable progress in modeling cascading failures in power grids, few works in...
This paper presents several enhancements on a mixed OPF-stochastic cascading failure model to study ...
Despite the reliability of modern power systems, large blackouts due to cascading failures (CFs) do ...
For a power system operating in the vicinity of the power transfer limit of its transmission system,...
The risk of cascading blackouts greatly relies on failure probabilities of individual components in ...