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Robust control in smart structures using the Hinfinity criterion and m-Analysis

Pouliezos Anastasios, Stavroulakis Georgios, Μουτσοπούλου Αμαλία

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URIhttp://purl.tuc.gr/dl/dias/D75CAF67-7C54-4867-9F9D-D79D4D9C219A-
Identifierhttps://doi.org/10.4203/ccp.93.208-
Languageen-
TitleRobust control in smart structures using the Hinfinity criterion and m-Analysisen
CreatorPouliezos Anastasiosen
CreatorΠουλιεζος Αναστασιοςel
CreatorStavroulakis Georgiosen
CreatorΣταυρουλακης Γεωργιοςel
CreatorΜουτσοπούλου Αμαλίαel
CreatorMoutsopoulou Amaliaen
PublisherCivil-Comp Pressen
Content SummaryIn this paper we apply and investigate the technology of robust control in smart structures. A smart structure can be defined as a structure with integrated sensors and actuators, together with a control system which aids the structure in reacting automatically to external stimuli acting upon it. The control system aims at suppressing undesirable effects and/or enhancing desirable effects. We study an example of such a structure: an intelligent beam with integrated piezoelectric actuators, the goal of which is to suppress oscillations under deterministic and stochastic loads [1]. Firstly we examine the Hinfinity criterion. The control problem is to keep the beam in equilibrium to face the external disturbances, such as wind and noise under the presence of model inaccuracies, using the available measurements and controls [2]. Also of interest is the maximum disturbance the system can handle, given its piezoelectric voltage limits. The advantage of the Hinfinity criterion is in its ability to take into account in the computations the worst result of uncertain disturbances or noise in the system [3]. It is possible to synthesize a Hinfinity controller which will be robust with respect to a predefined number of uncertainties in the model. The results are very good: the oscillations were suppressed even for a real aeolian load, with the piezoelectric component voltages within their endurance limits. Then, by taking into account the non-linearity of the system which was not considered in the model, our inaccurate knowledge of the model's values and parameters, and their physiological variations over the course of the structures' operation, we introduce modeling uncertainties [4]. A robust m-controller was analyzed and synthesized, using the D-K iterative method. The results using the various controllers are compared and commented upon. We propose a new method of robust fault detection that is insensitive to the disturbances caused by unknown modeling errors while it is highly sensitive to the component failures. It is shown by numerical simulations that the proposed methods suppresses the disturbances due to model errors and markedly improves the detection performance. The suitability of the Hinfinity and the D-K design technique in the modeling of uncertainties and in evaluating the robust performance of the system was demonstrated.en
Type of ItemΠλήρης Δημοσίευση σε Συνέδριοel
Type of ItemConference Full Paperen
Licensehttp://creativecommons.org/licenses/by/4.0/en
Date of Item2015-10-18-
Date of Publication2010-
SubjectRobust controlen
SubjectSmart structuresen
Bibliographic CitationA. Moutsopoulou, G.E. Stavroulakis and A. Pouliezos,"Robust control in smart structures using the Hinfinity criterion and m-Analysis," in The Tenth International Conference on Computational Structures Technology, Valencia, Spain, 2010. doi: 10.4203/ccp.93.208en

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