Non-contact model-based diagnostics of electrical motor involving uncertainty and imprecision of model parameters

  • Piotr Czop LABMOD
  • Lucjan Miękina University of Mining and Metallurgy

Abstract

System identification of a parametric ''black box" model for the purpose of electrical motor diagnostics is discussed in this paper. The measured acoustic pressure signal is used for identification of a model which structure is considered as a transfer function. Poles of denominator are calculated and collected on a complex plane. Fuzzy, two-stage algorithm is used for clustering and classification of poles which are assumed as symptoms of the motor conditions. The statistical uncertainty and fuzzy imprecision of the poles placement is taken into account by the clasterization procedure. The aim of this procedure is a separation of classes regarding a priori information of their number. Classification was performed with the use of the faulty electrical motors.

Keywords

fuzzy classification algorithm, acoustic process control, parametric model,

References

[1] M. Gibiec, L. Miękina. Electrical machines diagnostics with acoustic measurements application. Internoise 2004, The 33-rd International Congress and Exposition on Noise Control Engineering August 22-25, Prague, 2004.
[2] L. Ljung. System Identification - Theory for the User. Prentice-Hall, 1999.
[3] R.J. Patton, P.M. Frank, R.N. Clark. eds. Issues of Fault Diagnosis for Dynamic Systems. Springer-Verlag, London, 2000.
[4] M. Sugeno. Industrial Applications of Fuzzy Control. Elsevier Science, Pub. Co., 1985.
[5] L.A. Zadeh. Fuzzy sets. Information and Control (8), 338-353, 1965.
Published
Nov 28, 2022
How to Cite
CZOP, Piotr; MIĘKINA, Lucjan. Non-contact model-based diagnostics of electrical motor involving uncertainty and imprecision of model parameters. Computer Assisted Methods in Engineering and Science, [S.l.], v. 12, n. 2-3, p. 123- 132, nov. 2022. ISSN 2956-5839. Available at: <https://cames.ippt.pan.pl/index.php/cames/article/view/982>. Date accessed: 23 june 2024.
Section
Articles