Combining Prescribed Tracking Performance and Controller Simplicity for a Class of Uncertain MIMO Nonlinear Systems With Input Quantization

Combining Prescribed Tracking Performance and Controller Simplicity for a Class of Uncertain MIMO Nonlinear Systems With Input Quantization

For the class of multi-input multi-output nonlinear systems, comprised of fully interconnected strict-feedback subsystems, having uncertain, though locally Lipschitz nonlinearities and input quantization equipped with a hysteretic property, the objective is to construct a closed-loop system that com...

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Veröffentlicht in:IEEE transactions on automatic control 2019-03, Vol.64 (3), p.1228-1235
Hauptverfasser: Bikas, Lampros N., Rovithakis, George A.
Format: Artikel
Sprache:eng
Schlagworte:
Closed loop systems
Computer simulation
Control systems design
Controllers
Convergence
Feedback control
Input quantization
Measurement
MIMO (control systems)
Nonlinear systems
Quantization (signal)
Steady-state
Subsystems
Tracking control
Trajectories
Trajectory
uncertain nonlinear systems
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Rovithakis, George A.
description For the class of multi-input multi-output nonlinear systems, comprised of fully interconnected strict-feedback subsystems, having uncertain, though locally Lipschitz nonlinearities and input quantization equipped with a hysteretic property, the objective is to construct a closed-loop system that combines prescribed, output trajectory tracking performance attributes (maximum overshoot, minimum convergence rate, maximum steady-state error), and a low-complexity control solution. In this paper, the task is succeeded by designing a state-feedback controller that is not only structurally and computationally simple, but additionally it is decentralized and requires knowledge of the desired output trajectories only at each time instant. Further, no time derivatives of the output references are utilized. The aforementioned functionalities are achieved irrespectively of the quantization parameters, which besides being unknown, are considered as piecewise constant functions of time. Simulations are provided to verify and clarify the theoretical findings.
doi_str_mv 10.1109/TAC.2018.2847458
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In this paper, the task is succeeded by designing a state-feedback controller that is not only structurally and computationally simple, but additionally it is decentralized and requires knowledge of the desired output trajectories only at each time instant. Further, no time derivatives of the output references are utilized. The aforementioned functionalities are achieved irrespectively of the quantization parameters, which besides being unknown, are considered as piecewise constant functions of time. 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subjects Closed loop systems
Computer simulation
Control systems design
Controllers
Convergence
Feedback control
Input quantization
Measurement
MIMO (control systems)
Nonlinear systems
Quantization (signal)
Steady-state
Subsystems
Tracking control
Trajectories
Trajectory
uncertain nonlinear systems
title Combining Prescribed Tracking Performance and Controller Simplicity for a Class of Uncertain MIMO Nonlinear Systems With Input Quantization
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