Robust exact differentiators with predefined convergence time

Richard Seeber; Hernan Haimovich; Martin Horn; Leonid Fridman; Hernán De Battista

doi:10.1016/j.automatica.2021.109858

Robust exact differentiators with predefined convergence time

Richard Seeber^*, Hernan Haimovich, Martin Horn, Leonid Fridman, Hernán De Battista

^*Korrespondierende/r Autor/-in für diese Arbeit

Institut für Regelungs- und Automatisierungstechnik (4430)

Publikation: Beitrag in einer Fachzeitschrift › Artikel › Begutachtung

Abstract

The problem of exactly differentiating a signal with bounded second derivative is considered. A class of differentiators is proposed, which converge to the derivative of such a signal within a fixed, i.e., a finite and uniformly bounded convergence time. A tuning procedure is derived that allows to assign an arbitrary, predefined upper bound for this convergence time. It is furthermore shown that this bound can be made arbitrarily tight by appropriate tuning. The usefulness of the procedure is demonstrated by applying it to the well-known uniform robust exact differentiator, which is included in the considered class of differentiators as a special case.

Originalsprache	englisch
Aufsatznummer	109858
Seitenumfang	12
Fachzeitschrift	Automatica
Jahrgang	134
DOIs	https://doi.org/10.1016/j.automatica.2021.109858
Publikationsstatus	Veröffentlicht - Dez. 2021

ASJC Scopus subject areas

Elektrotechnik und Elektronik
Steuerungs- und Systemtechnik

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10.1016/j.automatica.2021.109858Lizenz: CC BY 4.0

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Assignment of Global Convergence Time Bounds for Exact Differentiators
Richard Seeber (Redner/in)
14 Okt. 2020
Aktivität: Vortrag oder Präsentation › Gastvortrag › Science to science

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abstract = "The problem of exactly differentiating a signal with bounded second derivative is considered. A class of differentiators is proposed, which converge to the derivative of such a signal within a fixed, i.e., a finite and uniformly bounded convergence time. A tuning procedure is derived that allows to assign an arbitrary, predefined upper bound for this convergence time. It is furthermore shown that this bound can be made arbitrarily tight by appropriate tuning. The usefulness of the procedure is demonstrated by applying it to the well-known uniform robust exact differentiator, which is included in the considered class of differentiators as a special case.",

keywords = "Disturbance rejection, Finite-time convergence, Fixed-time convergence, Sliding modes, Super-twisting algorithm",

author = "Richard Seeber and Hernan Haimovich and Martin Horn and Leonid Fridman and {De Battista}, Hern{\'a}n",

year = "2021",

month = dec,

doi = "10.1016/j.automatica.2021.109858",

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AU - Seeber, Richard

AU - Haimovich, Hernan

AU - Horn, Martin

AU - Fridman, Leonid

AU - De Battista, Hernán

PY - 2021/12

Y1 - 2021/12

N2 - The problem of exactly differentiating a signal with bounded second derivative is considered. A class of differentiators is proposed, which converge to the derivative of such a signal within a fixed, i.e., a finite and uniformly bounded convergence time. A tuning procedure is derived that allows to assign an arbitrary, predefined upper bound for this convergence time. It is furthermore shown that this bound can be made arbitrarily tight by appropriate tuning. The usefulness of the procedure is demonstrated by applying it to the well-known uniform robust exact differentiator, which is included in the considered class of differentiators as a special case.

AB - The problem of exactly differentiating a signal with bounded second derivative is considered. A class of differentiators is proposed, which converge to the derivative of such a signal within a fixed, i.e., a finite and uniformly bounded convergence time. A tuning procedure is derived that allows to assign an arbitrary, predefined upper bound for this convergence time. It is furthermore shown that this bound can be made arbitrarily tight by appropriate tuning. The usefulness of the procedure is demonstrated by applying it to the well-known uniform robust exact differentiator, which is included in the considered class of differentiators as a special case.

KW - Disturbance rejection

KW - Finite-time convergence

KW - Fixed-time convergence

KW - Sliding modes

KW - Super-twisting algorithm

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DO - 10.1016/j.automatica.2021.109858

M3 - Article

SN - 0005-1098

VL - 134

JO - Automatica

JF - Automatica

M1 - 109858

ER -

Robust exact differentiators with predefined convergence time

Abstract

ASJC Scopus subject areas

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Assignment of Global Convergence Time Bounds for Exact Differentiators

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