TITLE

OUTPUT REGULATION OF SPROTT-F CHAOTIC SYSTEM BY STATE FEEDBACK CONTROL

AUTHOR(S)
Vaidyanathan, Sundarapandian
PUB. DATE
March 2012
SOURCE
International Journal of Control Theory & Computer Modeling;Mar2012, Vol. 2 Issue 2, p53
SOURCE TYPE
Academic Journal
DOC. TYPE
Article
ABSTRACT
This paper solves the output regulation problem of Sprott-F chaotic system, which is one of the classical chaotic systems discovered by J.C. Sprott (1994). Explicitly, for the constant tracking problem, new state feedback control laws have been derived for regulating the output of the Sprott-F chaotic system. Our controller design has been carried out using the regulator equations of C.I. Byrnes and A. Isidori (1990). The output regulation of the Sprott-F chaotic system has important applications in many areas of Science and Engineering. Numerical simulations are shown to illustrate the effectiveness of the control schemes proposed in this paper for the output regulation of the Sprott-F chaotic system.
ACCESSION #
79921274

 

Related Articles

  • Controllability Approach to H∞ Control Problem of Linear Time-Varying Switched Systems. Niamsup, Piyapong // International MultiConference of Engineers & Computer Scientists;2008, p1304 

    This paper considers a H∞ control problem of a class of linear uncertain time-varying switched system via controllability approach. We show that the solution of this problem can be verified by the global null-controllability of linear control systems. The feedback stabilizing controllers...

  • Linear Feedback Synchronization Used in the Three-Dimensional Duffing System. Han, Jian-qun; Shi, Xu-dong; Sun, Hong // Journal of Control Science & Engineering;6/24/2015, Vol. 2015, p1 

    It has been realized that synchronization using linear feedback control method is efficient compared to nonlinear feedback control method due to the less computational complexity and the synchronization error. For the problem of feedback synchronization of Duffing chaotic system, in the paper,...

  • Comparison of linear and nonlinear feedback control of heart rate for treadmill running. Hunt, Kenneth J.; Maurer, Roman R. // Systems Science & Control Engineering;Dec2016, Vol. 4 Issue 1, p87 

    Heart rate can be used to define exercise intensity; feedback control systems for treadmills which automatically adjust speed to track arbitrary heart rate target profiles are therefore of interest. The aim of this study was to compare linear (L) and nonlinear (NL) controllers using quantitative...

  • Direct design of robustly asymptotically stabilizing hybrid feedback. Goebel, Rafal; Teel, Andrew R. // ESAIM: Control, Optimisation & Calculus of Variations;Jan2009, Vol. 15 Issue 1, p205 

    A direct construction of a stabilizing hybrid feedback that is robust to general measurement error is given for a general nonlinear control system that is asymptotically controllable to a compact set.

  • FORMATION CONTROLLERS FOR UNDERACTUATED SURFACE VESSELS AND ZERO DYNAMICS STABILITY. Fahimi, F.; Rineesh, S. V. S.; Nataraj, C. // Control & Intelligent Systems;2008, Vol. 36 Issue 3, p277 

    Nonlinear feedback control laws for controlling multiple robotic vessels in arbitrary formations are proposed. The presented leader-follower formation control approach uses only the inertial information obtained from the immediate neighbours of each vehicle via communication for control...

  • Global Stabilization of Nonlinear Control Systems. Wang Yun-xia // Applied Mechanics & Materials;2014, Issue 543-547, p1447 

    This article discusses the global stabilization problem of nonlinear systems, based on the Lyapunov method. First discussed the situation of a class of two order nonlinear stabilization, sufficient conditions for global stabilization of the system. Secondly, we study the global stabilization of...

  • Feedback Linearization Control of the Inertia Wheel Pendulum. Enev, Faculty of Automatics, Technical University of Sofia, 8 Kl. Ohridski Str., 1000 Sofia, Bulgaria // Cybernetics & Information Technologies;Sep2014, Vol. 14 Issue 3, p96 

    In this paper, two feedback linearizing control laws for the stabilization of the Inertia Wheel Pendulum are derived: a full-state linearizing controller, generalizing the existing results in literature, with friction ignored in the description and an inputoutput linearizing control law, based...

  • A decentralized model following controllers for a class of large-scale interconnected dynamical systems with uncertainties. Shigemaru, Shinji; Wu, Hansheng // Electrical Engineering in Japan;1/30/2003, Vol. 142 Issue 2, p48 

    The problem of decentralized robust tracking and model following is considered for a class of large-scale interconnected systems with uncertainties. A class of linear decentralized state feedback controllers are proposed for robust tracking of dynamical signals in such a class of uncertain...

  • Computer Simulations of an Augmented Automatic Choosing Control Using Automatic Choosing Functions of Gradient Optimization Type. Nawata, Toshinori // World Academy of Science, Engineering & Technology;Dec2010, Issue 48, p596 

    No abstract available.

Share

Read the Article

Courtesy of THE LIBRARY OF VIRGINIA

Sorry, but this item is not currently available from your library.

Try another library?
Sign out of this library

Other Topics