Elektronika ir Elektrotechnika (Aug 2022)

Generalized Quasi-Orthogonal Functional Networks Applied in Parameter Sensitivity Analysis of Complex Dynamical Systems

  • Sasa S. Nikolic,
  • Dragan S. Antic,
  • Nikola B. Dankovic,
  • Aleksandra A. Milovanovic,
  • Darko B. Mitic,
  • Miroslav B. Milovanovic,
  • Petar S. Djekic

DOI
https://doi.org/10.5755/j02.eie.31110
Journal volume & issue
Vol. 28, no. 4
pp. 19 – 26

Abstract

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This paper presents one possible application of generalized quasi-orthogonal functional networks in the sensitivity analysis of complex dynamical systems. First, a new type of first order (k = 1) generalized quasi-orthogonal polynomials of Legendre type via classical quasi-orthogonal polynomials was introduced. The short principle to design generalized quasi-orthogonal polynomials and filters was also shown. A generalized quasi-orthogonal functional network represents an extension of classical orthogonal functional networks and neural networks, which deal with general functional models. A sequence of the first order (k = 1) generalized quasi-orthogonal polynomials was used as a new basis in the proposed generalized quasi-orthogonal functional networks. The proposed method for determining the parameter sensitivity of complex dynamical systems is also given, and an example of a complex industrial system in the form of a tower crane was considered. The results obtained have been compared with different methods for parameter sensitivity analysis.

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