Size and Shape Design Optimization of Truss Structures Using the Jaya Algorithm

Computer Assisted Mechanics and Engineering Sciences Pub Date : 2020-05-27 DOI:10.24423/CAMES.282
M. Grzywiński
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引用次数: 5

Abstract

The metaheuristic algorithm is proposed to solve the weight minimization problem of truss structures, considering the shape and sizing design variables. Design variables are discrete and/or continuous. The design of truss structures is optimized by an efficient optimization algorithm called Jaya. The main feature of Jaya is that it does not require setting algorithm-specific parameters. The algorithm has a very simple formulation in which the basic idea is to approach the best solution and escape from the worst solution [6]. Analyses of structures are performed by a finite element code in MATLAB. The effectiveness of the Jaya algorithm is demonstrated using two benchmark examples: planar truss 18-bar and spatial truss 39-bar, and compared with results in references.
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基于Jaya算法的桁架结构尺寸和形状优化设计
提出了考虑形状和尺寸设计变量的桁架结构重量最小化问题的元启发式算法。设计变量是离散和/或连续的。采用一种高效的Jaya优化算法对桁架结构进行优化设计。Jaya的主要特点是它不需要设置特定于算法的参数。该算法有一个非常简单的公式,其基本思想是接近最佳解,逃离最差解[6]。通过MATLAB中的有限元程序对结构进行了分析。通过平面桁架18-bar和空间桁架39-bar两个基准算例验证了Jaya算法的有效性,并与文献结果进行了比较。
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Computer Assisted Mechanics and Engineering Sciences
Computer Assisted Mechanics and Engineering Sciences
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