Networks of phase oscillators are studied in various contexts, in particular, in the modeling of the electric power grid. A functional grid corresponds to a stable steady state such that any bifurcation can have catastrophic consequences up to a blackout. Also, the existence of multiple steady states is undesirable as it can lead to transitions or circulatory flows. Despite the high practical importance there is still no general theory of the existence and uniqueness of steady states in such systems. Analytic results are mostly limited to grids without Ohmic losses. In this article, we introduce a method to systematically construct the solutions of the real power load-flow equations in the presence of Ohmic losses and explicitly compute the...
Synchronization is essential for the proper functioning of power grids, we investigate the synchrono...
Supply and transport networks support much of our technical infrastructure as well as many biologica...
Abstract. During the normal operation of a power system all the voltages and currents are sinusoids ...
Networks of phase oscillators are studied in various contexts, in particular in the modeling of the ...
The analysis of dissipatively coupled oscillators is challenging and highly relevant in power grids....
The analysis of dissipatively coupled oscillators is challenging and highly relevant in power grids....
We study multistability in phase locked states in networks of phase oscillators under both Kuramoto ...
Dynamic stability is imperative for the operation of the electric power system. This article provide...
The stability of synchronised networked systems is a multi-faceted challenge for many natural and te...
Abstract — We investigate the total resistive losses incurred in returning a power network of identi...
Electrical power generation, transmission and distribution systems are often simulated through the s...
Fluctuations and damages crucially determine the operation and stability of networked systems across...
Abstract—High levels of penetration of distributed generation and aggressive reactive power compensa...
Abstract—In a network of synchronous generators, we investi-gate resistive power losses due to the p...
Power grids sustain modern society by supplying electricity and thus their stability is a crucial fa...
Synchronization is essential for the proper functioning of power grids, we investigate the synchrono...
Supply and transport networks support much of our technical infrastructure as well as many biologica...
Abstract. During the normal operation of a power system all the voltages and currents are sinusoids ...
Networks of phase oscillators are studied in various contexts, in particular in the modeling of the ...
The analysis of dissipatively coupled oscillators is challenging and highly relevant in power grids....
The analysis of dissipatively coupled oscillators is challenging and highly relevant in power grids....
We study multistability in phase locked states in networks of phase oscillators under both Kuramoto ...
Dynamic stability is imperative for the operation of the electric power system. This article provide...
The stability of synchronised networked systems is a multi-faceted challenge for many natural and te...
Abstract — We investigate the total resistive losses incurred in returning a power network of identi...
Electrical power generation, transmission and distribution systems are often simulated through the s...
Fluctuations and damages crucially determine the operation and stability of networked systems across...
Abstract—High levels of penetration of distributed generation and aggressive reactive power compensa...
Abstract—In a network of synchronous generators, we investi-gate resistive power losses due to the p...
Power grids sustain modern society by supplying electricity and thus their stability is a crucial fa...
Synchronization is essential for the proper functioning of power grids, we investigate the synchrono...
Supply and transport networks support much of our technical infrastructure as well as many biologica...
Abstract. During the normal operation of a power system all the voltages and currents are sinusoids ...