利用平衡复合运动优化技术优化加劲复合板

Son Hoai Nguyen, Phat Thuan Lam, Vo L Trieu, Saren Van Huynh
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引用次数: 0

摘要

近来,元启发式优化算法已在许多工程领域得到研究和应用,尤其是在解决结构优化问题方面。对于具有复杂行为的结构,选择合适的优化算法可以显著提高计算效率和求解精度。本文利用平衡复合运动优化算法研究了加劲复合板的优化问题。平衡复合运动优化算法的核心思想是,在求解加劲复合板纤维优化问题的解空间中,候选解的搜索运动在全局和局部两方面被复合均衡。候选方案可以向更好的方案靠近以利用局部区域,也可以向更远的地方移动以探索搜索空间。该方法不需要算法参数。计算结果与许多其他元启发式优化方法进行了比较,以证明该方法的准确性和效率。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
OPTIMIZATION OF STIFFENED COMPOSITE PLATE USING BALANCING COMPOSITE MOTION OPTIMIZATION
Recently, metaheuristic optimization algorithms have been studied and applied in many fields of engineering, especially in solving structural optimization problems. For structures with complex behaviors, the selection of a suitable optimization algorithm significantly increases the computational efficiency and the accuracy of the solution. In this paper, we investigate the optimization problem of stiffened composite plates using Balancing Composite Motion Optimization. The core idea of the Balancing Composite Motion Optimization algorithm is that the searching movements of candidate solutions are compositely equalized in both global and local ones in the solution space of solving the fiber optimization problem of stiffened composite plates. A candidate solution can move closer to better ones to exploit the local regions and move further to explore the search space also. The method does not require algorithm parameters. The calculation results are compared with many other metaheuristic optimization methods to prove the accuracy and efficiency of the method.
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