AIMS Mathematics (Sep 2023)

A quaternion Sylvester equation solver through noise-resilient zeroing neural networks with application to control the SFM chaotic system

  • Sondess B. Aoun ,
  • Nabil Derbel ,
  • Houssem Jerbi,
  • Theodore E. Simos,
  • Spyridon D. Mourtas,
  • Vasilios N. Katsikis

DOI
https://doi.org/10.3934/math.20231401
Journal volume & issue
Vol. 8, no. 11
pp. 27376 – 27395

Abstract

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Dynamic Sylvester equation (DSE) problems have drawn a lot of interest from academics due to its importance in science and engineering. Due to this, the quest for the quaternion DSE (QDSE) solution is the subject of this work. This is accomplished using the zeroing neural network (ZNN) technique, which has achieved considerable success in tackling time-varying issues. Keeping in mind that the original ZNN can handle QDSE successfully in a noise-free environment, but it might not work in a noisy one, and the noise-resilient ZNN (NZNN) technique is also utilized. In light of that, one new ZNN model is introduced to solve the QDSE problem and one new NZNN model is introduced to solve the QDSE problem under different types of noises. Two simulation experiments and one application to control of the sine function memristor (SFM) chaotic system show that the models function superbly.

Keywords