Efficient neural network-aided seismic life-cycle cost optimization of steel moment frames

IF 4.4 2区 工程技术 Q1 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS
Saeed Gholizadeh , Oğuzhan Hasançebi
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引用次数: 0

Abstract

In this paper, a novel and efficient neural network-based methodology is proposed to achieve seismic total cost optimization of steel moment-resisting frames in a timely manner. The computational burden of an optimization process based on performing nonlinear time-history analysis is prohibitively high. To address this crucial issue, a new and efficient neural network model is proposed in this paper to accurately predict the nonlinear time history response of steel frames during the optimization process. In the proposed neural network model, an ensemble of parallel neural networks is used to provide excellent prediction accuracy. In addition, a new repairability constraint is proposed to check the seismic damage level of structures during the optimization process with the aid of the proposed neural network model. Moreover, an efficient metaheuristic algorithm is used to achieve the optimization task. Two numerical examples are illustrated to demonstrate the efficiency of the proposed methodology. The results show that the proposed neural network model outperforms the existing standard models in terms of prediction accuracy. Furthermore, it is shown that by using the proposed methodology, the optimal seismic total cost of steel frames increases by less than 2.5%, yet their seismic collapse capacity increases by at least 30%.

钢弯矩框架抗震寿命周期成本的高效神经网络辅助优化
本文提出了一种新颖高效的基于神经网络的方法,可及时实现钢制力矩抵抗框架的抗震总成本优化。基于非线性时序分析的优化过程计算负担过重。为解决这一关键问题,本文提出了一种新型高效的神经网络模型,用于在优化过程中准确预测钢框架的非线性时程响应。在所提出的神经网络模型中,使用了并行神经网络集合来提供出色的预测精度。此外,还提出了一种新的可修复性约束,以便在优化过程中借助所提出的神经网络模型检查结构的地震破坏程度。此外,还采用了一种高效的元启发式算法来完成优化任务。通过两个数值实例说明了所提方法的效率。结果表明,所提出的神经网络模型在预测准确性方面优于现有的标准模型。此外,研究还表明,通过使用所提出的方法,钢框架的最佳抗震总成本增加不到 2.5%,但其抗震倒塌能力却至少提高了 30%。
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来源期刊
Computers & Structures
Computers & Structures 工程技术-工程:土木
CiteScore
8.80
自引率
6.40%
发文量
122
审稿时长
33 days
期刊介绍: Computers & Structures publishes advances in the development and use of computational methods for the solution of problems in engineering and the sciences. The range of appropriate contributions is wide, and includes papers on establishing appropriate mathematical models and their numerical solution in all areas of mechanics. The journal also includes articles that present a substantial review of a field in the topics of the journal.
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