Power grids are cyber-physical systems and can be modelled as network systems where
individual units (generators, busbars and loads) are interconnected through physical and …

Synchronization of power systems is not only a vital issue nowadays, but also of major
importance in the development of future smart grids where high penetration of renewable …

This article reviews different kinds of models for the electric power grid that can be used to
understand the modern power system, the smart grid. From the physical network to abstract …

In this work, we propose a control scheme for power grids subject to large perturbations that
cause the failure of a node of the grid. Under such circumstances, the system may lose …

This work concerns analytical results on the role of coupling strength in the phenomenon of
onset of complete frequency locking in power-grids modelled as a network of second-order …

Dynamical simulation of the cascade failures on the Europe and United States (US) high-
voltage power grids has been done via solving the second-order Kuramoto equation. We …

The power grid is a directional complex network of generators, substations, and consumers.
We propose a new load distribution law to emulate the power grid. We assume that the …

Power flow studies in traditional power systems aim to uncover the stationary relationship
between voltage amplitude and phase and active and reactive powers; they are important …

The secure consensualization for leaderless nonlinear multiagent systems with
communication link attacks is realized in a fully distributed manner in a certain sense that the …

The optimization of synchronization on distributed power grids is an important topic in recent
years. We extensively study the optimization by restructuring grid topology in terms of …