Tracking unstable periodic orbits in chaotic systems via time delayed feedback control

Xinghuo Yu; Guanrong Chen

doi:10.1109/CDC.1998.758603

Tracking unstable periodic orbits in chaotic systems via time delayed feedback control

Xinghuo Yu, Guanrong Chen

Research output: Journal Publications and Reviews › RGC 22 - Publication in policy or professional journal

6 Citations (Scopus)

Abstract

A time-delayed feedback control (TDFC) system is by nature a rather special version of the familiar autoregressive moving-average (ARMA) control, or the canonical state-space control systems. Despite some of its inherent limitations, TDFC can be quite successful in many chaos control applications. To understand to what extent the TDFC method is useful, some analytic (sufficient) conditions for chaos control from the TDFC approach are derived in this paper, for both stabilization and tracking problems. A gradient descent based search algorithm is incorporated with the TDFC to estimate the time delay constant for tracking unstable periodic orbits. The established theoretical results and estimation method are further clarified via a case study of the typical chaotic Rossler system with computer simulations.

Original language	English
Pages (from-to)	1942-1945
Journal	Proceedings of the IEEE Conference on Decision and Control
Volume	2
DOIs	https://doi.org/10.1109/CDC.1998.758603
Publication status	Published - 1998
Externally published	Yes
Event	Proceedings of the 1998 37th IEEE Conference on Decision and Control (CDC) - Tampa, FL, USA Duration: 16 Dec 1998 → 18 Dec 1998

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title = "Tracking unstable periodic orbits in chaotic systems via time delayed feedback control",

abstract = "A time-delayed feedback control (TDFC) system is by nature a rather special version of the familiar autoregressive moving-average (ARMA) control, or the canonical state-space control systems. Despite some of its inherent limitations, TDFC can be quite successful in many chaos control applications. To understand to what extent the TDFC method is useful, some analytic (sufficient) conditions for chaos control from the TDFC approach are derived in this paper, for both stabilization and tracking problems. A gradient descent based search algorithm is incorporated with the TDFC to estimate the time delay constant for tracking unstable periodic orbits. The established theoretical results and estimation method are further clarified via a case study of the typical chaotic Rossler system with computer simulations.",

author = "Xinghuo Yu and Guanrong Chen",

year = "1998",

doi = "10.1109/CDC.1998.758603",

language = "English",

volume = "2",

pages = "1942--1945",

journal = "Proceedings of the IEEE Conference on Decision and Control",

issn = "0191-2216",

publisher = "IEEE",

note = "Proceedings of the 1998 37th IEEE Conference on Decision and Control (CDC) ; Conference date: 16-12-1998 Through 18-12-1998",

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T1 - Tracking unstable periodic orbits in chaotic systems via time delayed feedback control

AU - Yu, Xinghuo

AU - Chen, Guanrong

PY - 1998

Y1 - 1998

N2 - A time-delayed feedback control (TDFC) system is by nature a rather special version of the familiar autoregressive moving-average (ARMA) control, or the canonical state-space control systems. Despite some of its inherent limitations, TDFC can be quite successful in many chaos control applications. To understand to what extent the TDFC method is useful, some analytic (sufficient) conditions for chaos control from the TDFC approach are derived in this paper, for both stabilization and tracking problems. A gradient descent based search algorithm is incorporated with the TDFC to estimate the time delay constant for tracking unstable periodic orbits. The established theoretical results and estimation method are further clarified via a case study of the typical chaotic Rossler system with computer simulations.

AB - A time-delayed feedback control (TDFC) system is by nature a rather special version of the familiar autoregressive moving-average (ARMA) control, or the canonical state-space control systems. Despite some of its inherent limitations, TDFC can be quite successful in many chaos control applications. To understand to what extent the TDFC method is useful, some analytic (sufficient) conditions for chaos control from the TDFC approach are derived in this paper, for both stabilization and tracking problems. A gradient descent based search algorithm is incorporated with the TDFC to estimate the time delay constant for tracking unstable periodic orbits. The established theoretical results and estimation method are further clarified via a case study of the typical chaotic Rossler system with computer simulations.

UR - http://www.scopus.com/inward/record.url?scp=0032268566&partnerID=8YFLogxK

UR - https://www.scopus.com/record/pubmetrics.uri?eid=2-s2.0-0032268566&origin=recordpage

U2 - 10.1109/CDC.1998.758603

DO - 10.1109/CDC.1998.758603

M3 - RGC 22 - Publication in policy or professional journal

SN - 0191-2216

VL - 2

SP - 1942

EP - 1945

JO - Proceedings of the IEEE Conference on Decision and Control

JF - Proceedings of the IEEE Conference on Decision and Control

T2 - Proceedings of the 1998 37th IEEE Conference on Decision and Control (CDC)

Y2 - 16 December 1998 through 18 December 1998

ER -

Tracking unstable periodic orbits in chaotic systems via time delayed feedback control

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