Recognition and optimisation method of impact deformation patterns based on point cloud and deep clustering: Applied to thin-walled tubes

IF 10.4 1区 计算机科学 Q1 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS
Chengxing Yang , Zhaoyang Li , Ping Xu , Huichao Huang
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引用次数: 0

Abstract

The recognition and clustering of deformation modes are key to constructing impact deformation constraints for thin-walled structures. This paper transforms the clustering and recognition problem of structural impact deformation modes into a problem of clustering and recognition of point cloud sequences based on pseudo-labels. The effectiveness of the method is assessed, and the experimental results show that the accuracy of the proposed method can reach up to 92.17 % when using a pre-training deep neural network feature extractor, which is not only close to the 98.50 % accuracy of supervised learning classification models but also has a 16.84 % improvement in accuracy compared to the deep clustering method based on K-Means. Under different clustering conditions, the proposed method can effectively classify and recognise samples with similar deformation modes and has the ability to summarise and induce new deformation modes when the number of clusters exceeds the number of manual labels. Furthermore, this paper presents a multi-objective optimisation method for structural crashworthiness under impact deformation constraints based on the NSGA-II algorithm. This method constructs impact deformation constraints using surrogate models and deformation clustering and recognition models. The experimental results show that the proposed method can effectively constrain the generation of the population. It is found that there are a large number of Pareto solutions that do not belong to the expected impact deformation mode under the condition of no deformation mode constraint. In contrast, almost all the obtained Pareto solutions conform to the expected impact deformation mode under the condition of deformation mode constraint. In summary, under the condition of impact deformation constraint, the obtained Pareto solutions can satisfy the crashworthiness requirements while conforming to the expected impact deformation mode.

基于点云和深度聚类的冲击变形模式识别与优化方法:应用于薄壁管
变形模式的识别和聚类是构建薄壁结构冲击变形约束的关键。本文将结构冲击变形模式的聚类和识别问题转化为基于伪标签的点云序列聚类和识别问题。对该方法的有效性进行了评估,实验结果表明,在使用预训练深度神经网络特征提取器时,所提方法的准确率可达 92.17 %,不仅接近监督学习分类模型 98.50 % 的准确率,而且与基于 K-Means 的深度聚类方法相比,准确率提高了 16.84 %。在不同的聚类条件下,所提出的方法能有效地对具有相似变形模式的样本进行分类和识别,并且在聚类数量超过人工标签数量时,具有总结和诱导新变形模式的能力。此外,本文还提出了一种基于 NSGA-II 算法的冲击变形约束下的结构耐撞性多目标优化方法。该方法利用代用模型和变形聚类及识别模型构建了冲击变形约束。实验结果表明,所提出的方法可以有效地约束群体的生成。实验发现,在无变形模式约束条件下,存在大量不属于预期冲击变形模式的帕累托方案。相反,在变形模式约束条件下,几乎所有得到的帕累托方案都符合预期的冲击变形模式。总之,在冲击变形约束条件下,所得到的帕累托方案既能满足耐撞性要求,又符合预期的冲击变形模式。
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来源期刊
Journal of Industrial Information Integration
Journal of Industrial Information Integration Decision Sciences-Information Systems and Management
CiteScore
22.30
自引率
13.40%
发文量
100
期刊介绍: The Journal of Industrial Information Integration focuses on the industry's transition towards industrial integration and informatization, covering not only hardware and software but also information integration. It serves as a platform for promoting advances in industrial information integration, addressing challenges, issues, and solutions in an interdisciplinary forum for researchers, practitioners, and policy makers. The Journal of Industrial Information Integration welcomes papers on foundational, technical, and practical aspects of industrial information integration, emphasizing the complex and cross-disciplinary topics that arise in industrial integration. Techniques from mathematical science, computer science, computer engineering, electrical and electronic engineering, manufacturing engineering, and engineering management are crucial in this context.
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