АНАЛІЗ НИЗЬКОЧАСТОТНИХ КОЛИВАНЬ В ЕНЕРГОСИСТЕМІ З ВИКОРИСТАННЯМ ВЕЙВЛЕТ-ПЕРЕТВОРЕННЯ

А. Marchenko; O. Tymokhin; А.  Tymokhina

No. 5 (2015), Electric Power Systems and Installations

No. 5 (2015)

Electric Power Systems and Installations

ANALYSIS OF LOW-FREQUENCY OSCILLATIONS IN POWER SYSTEM USING THE WAVELET TRANSFORM

Published 2015-09-01

А. Marchenko ⁺⁻
O. Tymokhin⁺⁻
А. Tymokhina ⁺⁻

А. Marchenko

National Technical University of Ukraine «Kyiv Polytechnic Institute», pr. Peremohy, 37, Kyiv, 03056, Ukraine

O. Tymokhin

National Technical University of Ukraine «Kyiv Polytechnic Institute», pr. Peremohy, 37, Kyiv, 03056, Ukraine

А. Tymokhina

National Technical University of Ukraine «Kyiv Polytechnic Institute», pr. Peremohy, 37, Kyiv, 03056, Ukraine

ARTICLE_9_PDF (Українська)

Keywords

low-frequency oscillations of power
Fourier transform
wavelet functions низькочастотні коливання потужності
перетворення Фур’є
вейвлет-функції

How to Cite

[1]

Марченко, А. , Тимохін, О. and Тимохіна , А. 2015. ANALYSIS OF LOW-FREQUENCY OSCILLATIONS IN POWER SYSTEM USING THE WAVELET TRANSFORM . Tekhnichna Elektrodynamika. 5 (Sep. 2015), 055.

Abstract

Work is devoted to the mathematical analysis of low-frequency oscillations that can occur in power systems with significant perturbations. The classical approach based on the use of the mathematical approach of the Fourier transform, and more modern which is based on wavelet transforms. Article presents analysis of real data from devices wide area measurement systems, using referred above two mathematical apparatus. Consequently, results gave possibility to make conclusion of comparative analysis of this two approaches, in particular, their advantages and disadvantages. References 7, figures 5.

ARTICLE_9_PDF (Українська)

References

Berdin A.S., Gerasimov A.S. Methods for the study of nonlinear and non-stationary properties of low-frequency oscillations in power systems / Modern trends of development of systems of relay protection and automation of power systems. – Ekaterinburg, 2013. – Pp. 1–7. (Rus)

Korepanov V.V., Kulesh M.A., Shardakov I.N. Using the wavelet analysis for processing experimental data, ex perimental vibrodiagnostic. – Perm, 2007. – 64 p. (Rus)

Mandrikova O.V., Goreva T.S. The method of identification of the structural components of a complex natural signal based on wavelet packet / Tsifrovaia obrabotka signalov. – Moskva, 2010. – Pp. 45–50. (Rus)

Smolentsev N.K. Fundamentals of the theory of wavelets. Wavelets in MATLAB. – Moskva: DMK Press, 2005. – 304 p. (Rus)

Shriufer E. Signal processing. Digital processing of sampled signals. – Kyiv: Lybіd, 1992. – 296 p. (Ukr)

David Brandwood. Fourier transforms in radar and signal processing. – Boston, 2003. – 212 p. 7. Fuhr H. Abstract Harmonic Analysis of Continuous Wavelet Transforms. – Springer, 2005. – 200 р.