Derivation of a Group of Lyapunov Functions reflecting Damping Effects and its Application

  • Published : 1998.06.01

Abstract

Stability analysis of nonlinear systems is mostly based on the Lyapunov stability theory. The well-known Lyapunov function method provides precise and rigorous theoretical backgrounds. However, the conventional approach to direct stability analysis has been performed without taking account of damping effects, which is pointed as a minor but crucial drawback. For accurate has been performed without taking account of damping effects, which is pointed as a minor but crucial drawback. For accurate stability analysis of nonlinear systems, it is required to take the damping effects into account. This paper presents a new method to derive a group of Lyapunov functions to reflect the damping effects by considering the integral relationships of the system governing equations. A systematical approach is developed to convert a part of damping loss into some appropriate system energy terms. Examples show that the proposed method remarkably improves the estimation of the region of attraction compared considering damping effects. The proposed method can be utilized as a useful tol to determine the region of attraction.

Keywords

References

  1. Proc. IEE v.117 Optimum Lyapunov Functions and Stability Regions for multimachine Power Systems J.L.Willems
  2. IEEE Trans. Circuits and Systems v.CAS-29 no.12 Stability Analysis of Multimachine Power Networks with Linear Frequency Dependent Loads D.J.Hill;A.R.Bergen
  3. Notes on Nonlinear Systems J.K.Aggarwal
  4. Power System Transient Stability Analysis using the transient Energy Function Method A.A.Fouad;V.Vittal
  5. AIEE Trans. v.60 A new approach to the transient stability problem N.Dharama Rao
  6. Applied Nonlinear Control J.E.Slotine;Weiping Li
  7. Nonlinear Systems H.K.Khalil
  8. IEEE Trans. on Automatic Control v.AC-16 no.4 Direct Methods for Transient Stability Studies in Power System Analysis J.L.Willems
  9. INT. J. Control v.19 no.2 New Lyapunov Functions for Power Systems based on Minimal Realizations M.A.Pai;P.G.Murthy
  10. INT. J. Control v.19 no.1 A Partial Stability Approach to the Problem of Transient Power System Stability J.L.Willems
  11. INT. J. Control v.19 no.5 A Multi-machine Power System Lyapunov Function using the Generalized Popov Criterion V.E.Henner
  12. Presented at the IEEE Summer Power Meeting The application of Lyapunov methods to the computation of transient stability regions for multi-machine power systems J.L.Willems;J.C.Willems
  13. SIAM J. v.5 A system theory criterion for positive real matrices Anderson,B.D.O.
  14. IEEE Trans. Power App. Syst. v.PAS-85 Direct method of Lyapunov applied to transient power system stability G.Gless
  15. Proc. Int. Elec. Eng. v.115 Improved Lyapunov function for transient power-system stability J.L.Willens
  16. Stanford Res. Inst. SRI-Rep. Power system planning and reliability J.Peschon(et al.)
  17. Automatica v.21 no.1 Direct Methods for Studying Dynamics of Large-scale Electric Power Systems A Survey M.Ribbens Pavella;F.J.Evans
  18. IEEE Trans v.PAS-16 Nonlinear Power System Stability Study by Lyapunov Function and Zubovs Method Yu,Y.N.;Vongsuriya,K.
  19. Energy Function Methods in Power System Stability M.A.Pai
  20. Differential Equations and Dynamical Systems An invariance principle in the theory of stability J.P.LsSalle;J.K.Hale;J.P.LaSalle(ed.)