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nonlinear dynamics

Dynamic Vulnerability in Oscillatory Networks and Power Grids

arXiv:1908.00957

summary

The paper introduces a Dynamic Vulnerability Index based on linear response theory to identify nodes in oscillator networks and AC power grids that exhibit the largest amplitude responses to external driving signals, highlighting vulnerable points especially under fluctuating renewable inputs.

Abstract

Recent work found distributed resonances in driven oscillator networks and AC power grids. The emerging dynamic resonance patterns are highly heterogeneous and nontrivial, depending jointly on the driving frequency, the interaction topology of the network and the node or nodes driven. Identifying which nodes are most susceptible to dynamic driving and may thus make the system as a whole vulnerable to external input signals, however, remains a challenge. Here we propose an easy-to-compute Dynamic Vulnerability Index (DVI) for identifying those nodes that exhibit largest amplitude responses to dynamic driving signals with given power spectra and thus are most vulnerable. The DVI is based on linear response theory, as such generic, and enables robust predictions. It thus shows potential for a wide range of applications across dynamically driven networks, for instance for identifying the vulnerable nodes in power grids driven by fluctuating inputs from renewable energy sources and fluctuating power output to households.

5 pages, 3 figures

Topics & keywords

#dynamic vulnerability#oscillatory networks#power grids#linear response theory#resonance patterns#renewable energy fluctuationsDynamic Vulnerability Indexlinear response theoryoscillator networksAC power griddynamic resonancefluctuating inputs