Output Feedback Control for a Class of Uncertain Fuzzy System by Controller Switching

Fuzzy control does not have a precise mathematical model, but it is a very effective way to deal with complex systems stability problems. Firstly, a class of uncertain fuzzy systems is given, and in this class model the parallel distributed compensation (PDC) controller switching method is introduced. Next, the methods of single Lyapunov function and multi Lyapunov functions are respectively used to obtain the conditions which make the closed-loop system asymptotically stable. Finally using the MATLAB/SIMULINK software to simulate, verify the feasibility and effectiveness of the theoretical derivation.

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Output Feedback Control for a Class of Switched Fuzzy Systems

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.536-537.1170 ◽

2014 ◽

Vol 536-537 ◽

pp. 1170-1173

Author(s):

Hong Yang ◽

Huan Huan Lü ◽

Le Zhang

Keyword(s):

Feedback Control ◽

Output Feedback ◽

Fuzzy Systems ◽

Closed Loop ◽

Sufficient Conditions ◽

Output Feedback Control ◽

Loop System ◽

Asymptotically Stable ◽

Closed Loop System ◽

Switching Law

The output feedback control problem is addressed for a class of switched fuzzy Systems. Using multiple Lyapunov function method and switching law, the relevant closed-loop system is asymptotically stable, with the switching law designed to implement the global asymptotic stability. The sufficient conditions to ensure the output feedback asymptotically stable output feedback control of closed-loop system are studied. The sufficient condition is transformed into Linear Matrix Inequality (LMI) problem which are more solvable. Finally, a numerical simulation example is employed to illustrate the effectiveness and the convergence of the design methodologies.

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Robust and Optimal Output-Feedback Control for Interval State-Space Model: Application to a Two-Degrees-of-Freedom Piezoelectric Tube Actuator

Journal of Dynamic Systems Measurement and Control ◽

10.1115/1.4040977 ◽

2018 ◽

Vol 141 (2) ◽

Cited By ~ 2

Author(s):

Mounir Hammouche ◽

Philippe Lutz ◽

Micky Rakotondrabe

Keyword(s):

State Space ◽

Output Feedback ◽

Degrees Of Freedom ◽

Closed Loop ◽

State Space Model ◽

Output Feedback Control ◽

Optimal Solution ◽

Loop System ◽

Closed Loop System ◽

Optimal Output

The problem of robust and optimal output feedback design for interval state-space systems is addressed in this paper. Indeed, an algorithm based on set inversion via interval analysis (SIVIA) combined with interval eigenvalues computation and eigenvalues clustering techniques is proposed to seek for a set of robust gains. This recursive SIVIA-based algorithm allows to approximate with subpaving the set solutions [K] that satisfy the inclusion of the eigenvalues of the closed-loop system in a desired region in the complex plane. Moreover, the LQ tracker design is employed to find from the set solutions [K] the optimal solution that minimizes the inputs/outputs energy and ensures the best behaviors of the closed-loop system. Finally, the effectiveness of the algorithm is illustrated by a real experimentation on a piezoelectric tube actuator.

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Sliding Mode Output Feedback Control of Vibration in a Flexible Structure

Journal of Dynamic Systems Measurement and Control ◽

10.1115/1.2789475 ◽

2007 ◽

Vol 129 (6) ◽

pp. 851-855 ◽

Cited By ~ 10

Author(s):

M. C. Pai ◽

A. Sinha

Keyword(s):

Output Feedback ◽

Control Algorithm ◽

Closed Loop ◽

Sliding Mode ◽

Output Feedback Control ◽

Flexible Structure ◽

Numerical Verification ◽

Closed Loop System ◽

New Approach ◽

Small Gain

This paper presents a new approach for the robust control of vibration in a flexible structure in the presence of uncertain parameters and residual modes. The technique is based on the sliding mode control algorithm using direct output feedback and assumes that actuators and sensors are not collocated. The uncertainty matrix need not satisfy the invariance or matching conditions. The small gain theorem/μ analysis is applied to analyze the asymptotic behavior of the closed-loop system with parametric uncertainties inside boundary layers. The model of a flexible tetrahedral truss structure is used to conduct numerical verification of the theoretical analysis.

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Observer-Based Control of a Class of Switched Fuzzy Systems

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.945-949.2539 ◽

2014 ◽

Vol 945-949 ◽

pp. 2539-2542

Author(s):

Hong Yang ◽

Huan Huan Lü ◽

Le Zhang

Keyword(s):

Fuzzy System ◽

Fuzzy Systems ◽

Function Method ◽

State Feedback ◽

Closed Loop ◽

External Disturbance ◽

Asymptotically Stable ◽

Closed Loop System ◽

Lyapunov Function Method ◽

Switching State

For the non-measurable states, a control of switched fuzzy systems is presented based on observer. Using switching technique and multiple Lyapunov function method, the fuzzy observer is built to ensure that for all allowable external disturbance the relevant closed-loop system is asymptotically stable. Moreover, switching strategy achieving system global asymptotic stability of the switched fuzzy system is given. In this model, a switching state feedback controller is presented. A simulation shows the feasibility and the effectiveness of the method.

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Design of Output Feedback Controller for Switched Fuzzy Systems with Time-Delay

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.635-637.1443 ◽

2014 ◽

Vol 635-637 ◽

pp. 1443-1446

Author(s):

Hong Yang ◽

Huan Huan Lü ◽

Le Zhang

Keyword(s):

Time Delay ◽

Output Feedback ◽

Fuzzy Systems ◽

Closed Loop ◽

Feedback Controller ◽

Linear Matrix ◽

Sufficient Condition ◽

Closed Loop System ◽

Output Feedback Controller ◽

And Control

This paper investigates the problems of stabilization and control for time-delay switched fuzzy systems using output feedback controller. Based on the linear matrix inequality (LMI) technique, multiple Lyapunov method is used to obtain a sufficient condition for the existence of the controller for the output feedback. Then an algorithm is constructed to transform the sufficient condition into a LMI form, thus obtaining a method for designing the controller. The designed controller guarantees the closed-loop system to be asympototically stable. A numerical example is given to show the effectiveness of our method.

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Vibration control of base-isolated structures using mixed H2/H∞ output-feedback control

Proceedings of the Institution of Mechanical Engineers Part I Journal of Systems and Control Engineering ◽

10.1243/09596518jsce730 ◽

2009 ◽

Vol 223 (6) ◽

pp. 809-820 ◽

Cited By ~ 5

Author(s):

H R Karimi ◽

M Zapateiro ◽

N Luo

Keyword(s):

Feedback Control ◽

Output Feedback ◽

Design Methodology ◽

Closed Loop ◽

Sufficient Conditions ◽

Output Feedback Control ◽

Linear Matrix ◽

Building Structures ◽

Matrix Inequalities ◽

Closed Loop System

A mixed H2/ H∞ output-feedback control design methodology for vibration reduction of base-isolated building structures modelled in the form of second-order linear systems is presented. Sufficient conditions for the design of a desired control are given in terms of linear matrix inequalities. A controller that guarantees asymptotic stability and a mixed H2/ H∞ performance for the closed-loop system of the structure is developed, based on a Lyapunov function. The performance of the controller is evaluated by means of simulations in MATLAB/Simulink.

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Static Output Feedback Control for Interval Type-2 T-S Fuzzy Systems Based on Fuzzy Lyapunov Functions

Asian Journal of Control ◽

10.1002/asjc.850 ◽

2014 ◽

Vol 16 (6) ◽

pp. 1702-1712 ◽

Cited By ~ 18

Author(s):

Tao Zhao ◽

Jian Xiao ◽

Lu Han ◽

Cunyong Qiu ◽

Jingchun Huang

Keyword(s):

Feedback Control ◽

Output Feedback ◽

Lyapunov Functions ◽

Fuzzy Systems ◽

Output Feedback Control ◽

Static Output Feedback ◽

Static Output Feedback Control ◽

Interval Type ◽

Static Output

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Semiglobal Output Feedback Stabilization of a Generalized Class of MIMO Nonlinear Systems

Journal of Dynamic Systems Measurement and Control ◽

10.1115/1.4004600 ◽

2011 ◽

Vol 133 (6) ◽

Cited By ~ 5

Author(s):

Junyong Zhai ◽

Chunjian Qian ◽

Hui Ye

Keyword(s):

Nonlinear Systems ◽

Output Feedback ◽

Closed Loop ◽

Feedback Stabilization ◽

Asymptotically Stable ◽

Closed Loop System ◽

Feedback Controllers ◽

Output Feedback Stabilization ◽

Mismatched Uncertainties ◽

Semiglobal Stabilization

This paper considers the problem of semiglobal stabilization by output feedback for a class of generalized multi-input and multi-output uncertain nonlinear systems. Due to the presence of mismatched uncertainties and the lack of triangularity condition, the systems under consideration are not uniformly completely observable. Combining the output feedback domination approach and block-backstepping scheme together, a series of linear output feedback controllers are constructed recursively for each subsystems and the closed-loop system is rendered semiglobally asymptotically stable.

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Global Finite-Time Output Feedback Stabilization for a Class of Uncertain Nonholonomic Systems

Abstract and Applied Analysis ◽

10.1155/2013/926971 ◽

2013 ◽

Vol 2013 ◽

pp. 1-10 ◽

Cited By ~ 3

Author(s):

Baojian Du ◽

Fangzheng Gao ◽

Fushun Yuan

Keyword(s):

Output Feedback ◽

Finite Time ◽

Closed Loop ◽

Output Feedback Control ◽

Design Procedure ◽

Nonholonomic Systems ◽

Feedback Stabilization ◽

Closed Loop System ◽

Output Feedback Stabilization ◽

Switching Control Strategy

This paper investigates the problem of global finite-time stabilization by output feedback for a class of nonholonomic systems in chained form with uncertainties. By using backstepping recursive technique and the homogeneous domination approach, a constructive design procedure for output feedback control is given. Together with a novel switching control strategy, the designed controller renders that the states of closed-loop system are regulated to zero in a finite time. A simulation example is provided to illustrate the effectiveness of the proposed approach.

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Output-Feedback Stabilization Control of Systems with Random Switchings and State Jumps

Abstract and Applied Analysis ◽

10.1155/2014/865451 ◽

2014 ◽

Vol 2014 ◽

pp. 1-5

Author(s):

Wei Qian ◽

Shen Cong ◽

Zheng Zheng

Keyword(s):

Output Feedback ◽

Closed Loop ◽

Sufficient Conditions ◽

Output Feedback Control ◽

Feedback Stabilization ◽

Matrix Inequalities ◽

Closed Loop System ◽

Output Feedback Stabilization ◽

Stabilization Control ◽

Exponentially Stable

The work is concerned with output-feedback stabilization control problem for a class of systems with random switchings and state jumps. The switching signal is supposed to obey Poisson distribution. Firstly, based on the asymptotical property of the distribution of switching points, we derive some sufficient conditions to guarantee the closed-loop system to be almost surely exponentially stable. Then, we pose a parametrization approach to convert the construction conditions of the output-feedback control into a family of matrix inequalities. Finally, a simulation example is given to demonstrate the effectiveness of our method.

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