Optimization-based design of sliding sector control for active seismic protection of structures

Saman Saadatfar, Fereshteh Emami, Mohsen Khatibinia, Hussein Eliasi
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Abstract

The active tuned mass damper (ATMD) is a reliable energy-dissipating device to effectively protect structures from serious damages due to earthquake excitations. This study proposes the optimal design of sliding sector control (SSC) for the seismic protection of an 11-story shear building structure equipped with ATMD. First, the SSC controller is optimally designed for the seismic control of the structure subjected to an artificial earthquake. Then, the effectiveness of the optimized SSC (OSSC) is assessed in reducing the seismic responses of the structure subjected to four near- and far-fault earthquake excitations. The efficient performance of the OSSC technique is also validated and compared with that of a number of the control techniques such as linear quadratic regulator (LQR), fuzzy logic control (FLC), proportional-integral-derivative (PID), and optimal sliding mode control (OSMC). Comparative results demonstrate the efficiency and robustness of the proposed OSSC in comparison with those of the other controllers.
基于优化设计的结构主动抗震滑动扇形控制
主动调谐质量阻尼器(ATMD)是一种可靠的消能装置,可以有效地防止结构在地震作用下受到严重破坏。本文针对某11层剪力建筑结构的防震设计,提出了滑动扇形控制的优化设计方案。首先,针对人工地震作用下结构的地震控制,优化设计了SSC控制器。然后,评估了优化后的SSC (OSSC)在降低结构在近断层和远断层四种地震激励下的地震反应方面的有效性。验证了OSSC技术的高效性能,并与线性二次型调节器(LQR)、模糊逻辑控制(FLC)、比例积分导数(PID)和最优滑模控制(OSMC)等控制技术进行了比较。对比结果表明,与其他控制器相比,所提出的自适应自适应控制器的有效性和鲁棒性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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