Add to ORKGPower system normal form analysis has developed coefficients and indices in modal coordinates to quantify nonlinear modal interactions. We study the changes in the coefficients and indices when the power system equations are expressed in different coordinates or units and show that they can be normalized to be invariant to coordinate changes and thus intrinsic to the power system. The results are illustrated on a 4 generator system. An example shows that the coefficients and indices not only detect nonlinear interactions but also can become very large near a strong resonance in the system linearization
The aim of this paper is to provide an introduction to using normal form transformations for linear ...
International audienceThe inclusion of higher-order terms in small-signal (modal) analysis augments ...
Based on the notion of normal modes in mechanical systems, a method is proposed for the analysis and...
International audienceThe inclusion of higher-order terms in small-signal (modal) analysis has been ...
International audienceToday's power systems are strongly nonlinear in essence and are becoming more ...
Today\u27s power systems have become more and more stressed due to the high utilization of available...
In this research the nonlinear modal interaction and the effect of the interaction on the stressed p...
This paper reports on the experience in the analysis of non-linear effects arising from the interact...
Increasing nonlinearity in today’s grid challenges the conventional small-signal (modal) analysis (S...
In this paper, an analytical procedure based upon normal form (NF) theory and the Kronecker product,...
In this dissertation, normal form (NF) theory is used to characterize and quantify nonlinear modal i...
This paper discusses the application of normal form theory to study nonlinear modal interaction in s...
In this paper, a new approach is presented to reduce the nonlinear characteristics of a stressed pow...
Systems composed with a sum of interconnected sub-systems offer the advantages of a better flexibili...
International audienceThe increase of power exchanges through long lines makes power systems exhibit...
The aim of this paper is to provide an introduction to using normal form transformations for linear ...
International audienceThe inclusion of higher-order terms in small-signal (modal) analysis augments ...
Based on the notion of normal modes in mechanical systems, a method is proposed for the analysis and...
International audienceThe inclusion of higher-order terms in small-signal (modal) analysis has been ...
International audienceToday's power systems are strongly nonlinear in essence and are becoming more ...
Today\u27s power systems have become more and more stressed due to the high utilization of available...
In this research the nonlinear modal interaction and the effect of the interaction on the stressed p...
This paper reports on the experience in the analysis of non-linear effects arising from the interact...
Increasing nonlinearity in today’s grid challenges the conventional small-signal (modal) analysis (S...
In this paper, an analytical procedure based upon normal form (NF) theory and the Kronecker product,...
In this dissertation, normal form (NF) theory is used to characterize and quantify nonlinear modal i...
This paper discusses the application of normal form theory to study nonlinear modal interaction in s...
In this paper, a new approach is presented to reduce the nonlinear characteristics of a stressed pow...
Systems composed with a sum of interconnected sub-systems offer the advantages of a better flexibili...
International audienceThe increase of power exchanges through long lines makes power systems exhibit...
The aim of this paper is to provide an introduction to using normal form transformations for linear ...
International audienceThe inclusion of higher-order terms in small-signal (modal) analysis augments ...
Based on the notion of normal modes in mechanical systems, a method is proposed for the analysis and...