2012 American Control Conference (ACC) 2012
DOI: 10.1109/acc.2012.6315520
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Quasi-stationarity of electric power grid dynamics based on a spatially embedded Kuramoto model

Abstract: Abstract-A novel and simple network model that is capable to reproduce quasi-stationary behavior and propagation phenomena in electric power grid dynamics is introduced. A new Kuramoto approximation to distributed generator dynamics is obtained from combining a continuous spatial interaction function with a discrete lattice model representing generator positions and network structure over a continuous spatial domain. At hand of model properties and a numerical study quasi-stationarity of electric power grid dy… Show more

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Cited by 6 publications
(5 citation statements)
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“…Notice that, with the exception of the inertial terms M iθi and the possibly non-unit coefficients D i , the power network dynamics (8)-(10) are a perfect electrical analog of the coupled oscillator model (1) with ω i ∈ {−P l,i , P m,i , P d,i }. Thus, it is not surprising that scientists from different disciplines recently advocated coupled oscillator approaches to analyze synchronization in power networks (Tanaka et al, 1997;Subbarao et al, 2001;Hill and Chen, 2006;Filatrella et al, 2008;Buzna et al, 2009;Fioriti et al, 2009;Simpson-Porco et al, 2013;Dörfler and Bullo, 2012b;Rohden et al, 2012;Dörfler et al, 2013;Mangesius et al, 2012;Motter et al, 2013;Ainsworth and Grijalva, 2013). The theoretical tools presented in this article establish how frequency synchronization in power networks depend on the nodal parameters (P l,i , P m,i , P d,i ) as well as the interconnecting electrical network with weights a ij .…”
Section: Electric Power Network With Synchronous Generators and Dc/amentioning
confidence: 99%
See 1 more Smart Citation
“…Notice that, with the exception of the inertial terms M iθi and the possibly non-unit coefficients D i , the power network dynamics (8)-(10) are a perfect electrical analog of the coupled oscillator model (1) with ω i ∈ {−P l,i , P m,i , P d,i }. Thus, it is not surprising that scientists from different disciplines recently advocated coupled oscillator approaches to analyze synchronization in power networks (Tanaka et al, 1997;Subbarao et al, 2001;Hill and Chen, 2006;Filatrella et al, 2008;Buzna et al, 2009;Fioriti et al, 2009;Simpson-Porco et al, 2013;Dörfler and Bullo, 2012b;Rohden et al, 2012;Dörfler et al, 2013;Mangesius et al, 2012;Motter et al, 2013;Ainsworth and Grijalva, 2013). The theoretical tools presented in this article establish how frequency synchronization in power networks depend on the nodal parameters (P l,i , P m,i , P d,i ) as well as the interconnecting electrical network with weights a ij .…”
Section: Electric Power Network With Synchronous Generators and Dc/amentioning
confidence: 99%
“…The continuum-limit model has enjoyed a considerable amount of attention by the physics and dynamics communities. Related controltheoretical applications of the continuum-limit model are estimation of gait cycles (Tilton et al, 2012), spatial power grid modeling and analysis (Mangesius et al, 2012), and game theoretic approaches (Yin et al, 2012).…”
Section: Synchronization In Infinite-dimensional Networkmentioning
confidence: 99%
“…Interestingly, analogous considerations regard also the study of the electric power grid dynamics where, again, the Kuramoto model proves to be an agile and useful model tool. In particular, [11] describes a spatially embedded Kuramoto dynamics that involves a constant delay proportional to the spatial distance between the oscillators, phase shifts caused by transmission delays and a coupling function that decreases with the distance. More in general, the basic idea that the distances among the agents affect the synchronization dynamics can be find also in [9], where it is considered the behavior of a lattice of oscillators that interact with a power-law coupling strength.…”
Section: Angelocenedese@unipditmentioning
confidence: 99%
“…Currently used frequency estimation techniques include: i) Fourier transform approaches [4]- [7], ii) gradient decent and least squares adaptive estimation [8], and iii) state space methods and Kalman filters [9]- [12]. However, these are typically designed for single-phase systems and often assume balanced operating conditions (equal voltage amplitudes and equally spaced phases) and are therefore inadequate for the demands of modern three-phase and dynamically optimised power systems.…”
Section: Introductionmentioning
confidence: 99%