Control of systems with sector-bounded nonlinearities： robust stability and command effort minimization by disturbance rejection

The paper shows that a control strategy with disturbance rejection is able to reduce the control effort to a minimum, ensuring at the same time a desired performance level. The disturbance to be rejected is completely unknown, except for a sectorial bound. The control unit is endowed with an extende...

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Veröffentlicht in:	Control theory and technology 2016-08, Vol.14 (3), p.209-223
Hauptverfasser:	Novara, Carlo, Canuto, Enrico, Carlucci, Donato
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Sprache:	eng
Schlagworte:	Complexity Computational Intelligence Control Control and Systems Theory Engineering Mechatronics Optimization Robotics Robust control Systems Theory
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container_title	Control theory and technology
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creator	Novara, Carlo Canuto, Enrico Carlucci, Donato
description	The paper shows that a control strategy with disturbance rejection is able to reduce the control effort to a minimum, ensuring at the same time a desired performance level. The disturbance to be rejected is completely unknown, except for a sectorial bound. The control unit is endowed with an extended state observer which includes a disturbance dynamics, whose state tracks the unknown disturbance to be rejected. In summary, the novel contributions of the paper are the following. First, we derive a robust stability condition for the proposed control scheme, holding for all the nonlinearities that are bounded by a known （or estimated） maximum slope. Second, we propose a novel approach for designing the observer and state feedback gains, which guarantee robust closed-loop stability. Third, we show that the designed control system yields, with a minimum control effort, the same control performance as a robust state feedback control, which on the contrary may require a larger command activity. Two simulated case studies are presented to show the effectiveness of the proposed approach.
doi_str_mv	10.1007/s11768-016-6017-6
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subjects	Complexity Computational Intelligence Control Control and Systems Theory Engineering Mechatronics Optimization Robotics Robust control Systems Theory
title	Control of systems with sector-bounded nonlinearities： robust stability and command effort minimization by disturbance rejection
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