Enhanced salp swarm algorithm based on opposition learning and merit function methods for optimum design of MTMD

IF 1.4 4区工程技术 Q3 ENGINEERING, CIVIL

Earthquakes and Structures Pub Date : 2020-06-01 DOI:10.12989/EAS.2020.18.6.719

Farzad Raeesi, Sina Shirgir, B. F. Azar, H. Veladi, H. Ghaffarzadeh

引用次数: 3

Abstract

Recently, population based optimization algorithms are developed to deal with a variety of optimization problems. In this paper, the salp swarm algorithm (SSA) is dramatically enhanced and a new algorithm is named Enhanced Salp Swarm Algorithm (ESSA) which is effectively utilized in optimization problems. To generate the ESSA, an opposition-based learning and merit function methods are added to standard SSA to enhance both exploration and exploitation abilities. To have a clear judgment about the performance of the ESSA, firstly, it is employed to solve some mathematical benchmark test functions. Next, it is exploited to deal with engineering problems such as optimally designing the benchmark buildings equipped with multiple tuned mass damper (MTMD) under earthquake excitation. By comparing the obtained results with those obtained from other algorithms, it can be concluded that the proposed new ESSA algorithm not only provides very competitive results, but also it can be successfully applied to the optimal design of the MTMD.

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基于对立学习和优点函数法的改进salp群算法在MTMD优化设计中的应用

最近，基于种群的优化算法被开发来处理各种优化问题。本文对salp群算法（SSA）进行了显著的改进，并将其有效地应用于优化问题中。为了生成ESSA，在标准SSA中添加了基于对立的学习和优点函数方法，以增强探索和开发能力。为了对ESSA的性能有一个清晰的判断，首先，将其用于求解一些数学基准测试函数。接下来，它被用来处理工程问题，例如在地震激励下优化设计配备多重调谐质量阻尼器（MTMD）的基准建筑。通过将所获得的结果与其他算法的结果进行比较，可以得出结论，所提出的新ESSA算法不仅提供了非常有竞争力的结果，而且可以成功地应用于MTMD的优化设计。

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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来源期刊

Earthquakes and Structures ENGINEERING, CIVIL-ENGINEERING, GEOLOGICAL

CiteScore

2.90

自引率

20.00%

发文量

审稿时长

>12 weeks

期刊介绍： The Earthquakes and Structures, An International Journal, focuses on the effects of earthquakes on civil engineering structures. The journal will serve as a powerful repository of technical information and will provide a highimpact publication platform for the global community of researchers in the traditional, as well as emerging, subdisciplines of the broader earthquake engineering field. Specifically, some of the major topics covered by the Journal include: .. characterization of strong ground motions, .. quantification of earthquake demand and structural capacity, .. design of earthquake resistant structures and foundations, .. experimental and computational methods, .. seismic regulations and building codes, .. seismic hazard assessment, .. seismic risk mitigation, .. site effects and soil-structure interaction, .. assessment, repair and strengthening of existing structures, including historic structures and monuments, and .. emerging technologies including passive control technologies, structural monitoring systems, and cyberinfrastructure tools for seismic data management, experimental applications, early warning and response