Speeding up Composite Differential Evolution for structural optimization using neural networks

IF 2.7 Q2 COMPUTER SCIENCE, INFORMATION SYSTEMS

Journal of Information and Telecommunication Pub Date : 2021-06-30 DOI:10.1080/24751839.2021.1946740

Tran-Hieu Nguyen, Anh-Tuan Vu

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引用次数: 2

Abstract

ABSTRACT Composite Differential Evolution (CoDE) is categorized as a (µ + λ)-Evolutionary Algorithm where each parent produces three trials. Thanks to that, the CoDE algorithm has a strong search capacity. However, the production of many offspring increases the computation cost of fitness evaluation. To overcome this problem, neural networks, a powerful machine learning algorithm, are used as surrogate models for rapidly evaluating the fitness of candidates, thereby speeding up the CoDE algorithm. More specifically, in the first phase, the CoDE algorithm is implemented as usual, but the fitnesses of produced candidates are saved to the database. Once a sufficient amount of data has been collected, a neural network is developed to predict the constraint violation degree of candidates. Offspring produced later will be evaluated using the trained neural network and only the best among them is compared with its parent by exact fitness evaluation. In this way, the number of exact fitness evaluations is significantly reduced. The proposed method is applied for three benchmark problems of 10-bar truss, 25-bar truss, and 72-bar truss. The results show that the proposed method reduces the computation cost by approximately 60%.

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用神经网络加速结构优化的复合微分进化

复合差分进化(CoDE)被归类为(µ+ λ)-进化算法，其中每个亲本产生三次试验。因此，CoDE算法具有很强的搜索能力。然而，大量子代的产生增加了适应度评估的计算成本。为了克服这个问题，神经网络作为一种强大的机器学习算法，被用作替代模型来快速评估候选对象的适应度，从而加快了CoDE算法的速度。更具体地说，在第一阶段，像往常一样实现CoDE算法，但是生成的候选对象的适应度被保存到数据库中。一旦收集到足够的数据量，就利用神经网络来预测候选者的约束违反程度。以后产生的后代将使用训练好的神经网络进行评估，并通过精确的适应度评估将其中最优的后代与其亲代进行比较。通过这种方式，精确适应度评估的数量显著减少。将该方法应用于10杆桁架、25杆桁架和72杆桁架三个基准问题。结果表明，该方法可将计算量减少约60%。

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

Journal of Information and Telecommunication Multiple-

CiteScore

7.50

自引率

0.00%

发文量

审稿时长

27 weeks