Fuzzy logic controller for real-time substructuring applications

Real-time substructuring is a hybrid technique in which the critical component of the structure is tested, while the remainder is numerically analyzed based on a suitable model. The synchronization between the testing and the analysis is maintained by a controller. This paper proposes a new controll...

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Veröffentlicht in:	Journal of vibration and control 2014-06, Vol.20 (8), p.1103-1118
Hauptverfasser:	Verma, Mohit, Rajasankar, J, Iyer, Nagesh R
Format:	Artikel
Sprache:	eng
Schlagworte:	Controllers Damping Errors Fuzzy control Fuzzy logic Mathematical models Performance indices Real time Seismic phenomena Simulation Substructuring
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container_end_page	1118
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container_title	Journal of vibration and control
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creator	Verma, Mohit Rajasankar, J Iyer, Nagesh R
description	Real-time substructuring is a hybrid technique in which the critical component of the structure is tested, while the remainder is numerically analyzed based on a suitable model. The synchronization between the testing and the analysis is maintained by a controller. This paper proposes a new controller based on fuzzy logic for real-time substructuring applications. The advantage of a fuzzy-logic-based controller is that it is rule based and involves far less computations. The performance of the proposed controller is verified through numerical simulations of a substructured linear and nonlinear single-degree-of-freedom system for two different damping ratios. The performance of the controller is compared with that of conventional controllers which are used in real-time substructuring on the basis of a nondimensional error index. The fuzzy logic controller is found to have the least error index for the chosen nonlinear system and performs satisfactorily for a linear system. Furthermore, the effectiveness of the proposed fuzzy logic controller is demonstrated by numerically evaluating the response of a portal frame pinned at one of the beam column joints for the El-Centro earthquake. The displacement time history response was found to closely match that of the emulated system.
doi_str_mv	10.1177/1077546312464991
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subjects	Controllers Damping Errors Fuzzy control Fuzzy logic Mathematical models Performance indices Real time Seismic phenomena Simulation Substructuring
title	Fuzzy logic controller for real-time substructuring applications
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