Detail publikace

Optimal F-domain stabilization technique for reduction of commensurate fractional-order SISO systems

MAHATA, S. HERENCSÁR, N. ALAGOZ, B. B. YEROGLU, C.

Originální název

Optimal F-domain stabilization technique for reduction of commensurate fractional-order SISO systems

Anglický název

Optimal F-domain stabilization technique for reduction of commensurate fractional-order SISO systems

Jazyk

en

Originální abstrakt

This paper presents a new approach for reduction of commensurate fractional-order single-input-single-output systems. The minimization in the frequency response error of the reduced order model (ROM) relative to the original system is carried out in the F-plane. A constrained optimization technique is introduced to satisfy the angle criteria for F-domain stability of the proposed ROM. Significant improvements in both the time- and frequency-responses over the recently published literature are illustrated using several numerical examples.

Anglický abstrakt

This paper presents a new approach for reduction of commensurate fractional-order single-input-single-output systems. The minimization in the frequency response error of the reduced order model (ROM) relative to the original system is carried out in the F-plane. A constrained optimization technique is introduced to satisfy the angle criteria for F-domain stability of the proposed ROM. Significant improvements in both the time- and frequency-responses over the recently published literature are illustrated using several numerical examples.

Plný text v Digitální knihovně

Dokumenty

BibTex


@article{BUT177467,
  author="Shibendu {Mahata} and Norbert {Herencsár} and Baris Baykant {Alagoz} and Celaleddin {Yeroglu}",
  title="Optimal F-domain stabilization technique for reduction of commensurate fractional-order SISO systems",
  annote="This paper presents a new approach for reduction of commensurate fractional-order single-input-single-output systems. The minimization in the frequency response error of the reduced order model (ROM) relative to the original system is carried out in the F-plane. A constrained optimization technique is introduced to satisfy the angle criteria for F-domain stability of the proposed ROM. Significant improvements in both the time- and frequency-responses over the recently published literature are illustrated using several numerical examples.",
  address="Springer",
  chapter="177467",
  doi="10.1007/s13540-022-00014-6",
  howpublished="print",
  institution="Springer",
  number="2",
  volume="25",
  year="2022",
  month="march",
  pages="803--821",
  publisher="Springer",
  type="journal article in Web of Science"
}