Optimization of Steel Truss Using Genetic Algorithm

Passer Journal of Basic and Applied Sciences Pub Date : 2024-01-01 DOI:10.24271/psr.2024.188476

Idrees Mahmood, Salim Yousif, Honar Issa

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Abstract

In this paper, an optimization study is presented, focusing on steel trusses. The main goal of this study is to reduce the weight of truss structures using a Genetic Algorithm (GA), which is a widely acknowledged evolutionary-based method known for its efficiency in solving intricate optimization problems. The design problem formulation takes into account various constraints, such as displacement, tensile stress, and minimum size requirements. These constraints are implemented in MATLAB, utilizing the ANSI/AISC 360-16 Specification as a guideline for designing tension and compression members. To determine the optimal design, the approach involves considering discrete design variables. This is achieved by selecting sections from a database containing all available steel sections specified in the AISC Steel Construction Manual, ensuring practical and feasible design solutions. The efficiency of the algorithm is validated through its application to several plane truss types. Through a comparison of the outcomes obtained from the proposed algorithm with the results generated by CSI-ETABS software, it is demonstrated that this approach consistently yields better weight optimization. Overall, the study showcases the effectiveness of the GA-based algorithm in optimizing the weight of steel trusses. The results and implications of the findings are thoroughly discussed in the paper; this study has the potential to make a substantial contribution to the field of structural optimization and design.

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利用遗传算法优化钢桁架

本文介绍了一项以钢桁架为重点的优化研究。该研究的主要目标是利用遗传算法（GA）减轻桁架结构的重量，遗传算法是一种广受认可的基于进化的方法，以其解决复杂优化问题的效率而著称。设计问题的表述考虑了各种约束条件，如位移、拉应力和最小尺寸要求。这些约束条件在 MATLAB 中实现，并利用 ANSI/AISC 360-16 规范作为设计拉伸和压缩构件的指南。为了确定最佳设计，该方法需要考虑离散设计变量。为此，可从包含《AISC 钢结构手册》中规定的所有可用型钢的数据库中选择型钢，确保设计方案切实可行。通过对几种平面桁架类型的应用，验证了该算法的效率。通过将所提算法的结果与 CSI-ETABS 软件生成的结果进行比较，证明这种方法始终能产生更好的重量优化效果。总之，这项研究展示了基于 GA 的算法在优化钢桁架重量方面的有效性。论文对研究结果及其影响进行了深入讨论；这项研究有望为结构优化和设计领域做出重大贡献。

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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Passer Journal of Basic and Applied Sciences

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