Complex dynamics of systems under delta-modulated feedback

Rudong Gai; Xiaohua Xia; Guanrong Chen

doi:10.1109/TAC.2006.886488

Complex dynamics of systems under delta-modulated feedback

Rudong Gai, Xiaohua Xia, Guanrong Chen

Department of Electrical Engineering

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

11 Citations (Scopus)

Abstract

In this paper, we cast the design of Δ-modulated control of a high-order system into the study of control Lyapunov functions. We classify the complex dynamics of the closed-loop system in three cases. In the first case, we show how Δ-modulated feedback introduces a finite set of globally attracting periodic points. We find the numbers and periods of all possible such periodic orbits. In addition, we characterize the attracting region for each of such periodic points. In the second case, we show that there is a maximal "stabilizable" region, and inside this region, there is a local attractor. In the last case, we show that all the states stabilizable by the Δ-modulated feedback constitute a Cantor set. This Cantor set is a repeller, and the closed-loop system is chaotic on the Cantor set. © 2006 IEEE.

Original language	English
Pages (from-to)	1888-1902
Journal	IEEE Transactions on Automatic Control
Volume	51
Issue number	12
DOIs	https://doi.org/10.1109/TAC.2006.886488
Publication status	Published - Dec 2006

Research Keywords

Attracting region
Attractor
Cantor set
Chaos
Control Lyapunov function
Delta-modulation
Repeller

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T1 - Complex dynamics of systems under delta-modulated feedback

AU - Gai, Rudong

AU - Xia, Xiaohua

AU - Chen, Guanrong

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N2 - In this paper, we cast the design of Δ-modulated control of a high-order system into the study of control Lyapunov functions. We classify the complex dynamics of the closed-loop system in three cases. In the first case, we show how Δ-modulated feedback introduces a finite set of globally attracting periodic points. We find the numbers and periods of all possible such periodic orbits. In addition, we characterize the attracting region for each of such periodic points. In the second case, we show that there is a maximal "stabilizable" region, and inside this region, there is a local attractor. In the last case, we show that all the states stabilizable by the Δ-modulated feedback constitute a Cantor set. This Cantor set is a repeller, and the closed-loop system is chaotic on the Cantor set. © 2006 IEEE.

AB - In this paper, we cast the design of Δ-modulated control of a high-order system into the study of control Lyapunov functions. We classify the complex dynamics of the closed-loop system in three cases. In the first case, we show how Δ-modulated feedback introduces a finite set of globally attracting periodic points. We find the numbers and periods of all possible such periodic orbits. In addition, we characterize the attracting region for each of such periodic points. In the second case, we show that there is a maximal "stabilizable" region, and inside this region, there is a local attractor. In the last case, we show that all the states stabilizable by the Δ-modulated feedback constitute a Cantor set. This Cantor set is a repeller, and the closed-loop system is chaotic on the Cantor set. © 2006 IEEE.

KW - Attracting region

KW - Attractor

KW - Cantor set

KW - Chaos

KW - Control Lyapunov function

KW - Delta-modulation

KW - Repeller

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M3 - RGC 21 - Publication in refereed journal

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EP - 1902

JO - IEEE Transactions on Automatic Control

JF - IEEE Transactions on Automatic Control

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Complex dynamics of systems under delta-modulated feedback

Abstract

Research Keywords

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