基于复杂网络和加权传递熵的复杂薄壁结构关键偏差源诊断

Y.G. Zhu, Q. Shi, W.P. Jiang, B. Deng
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引用次数: 0

摘要

飞机复杂薄壁结构在装配过程中存在多种偏差源。要找出影响质量的重要因素,关键偏差资源的诊断至关重要。由于偏差源与装配件之间的偏差传递具有小样本量、非线性和强耦合的特点,因此通过构建装配尺寸链来诊断关键偏差源比较困难。因此,在偏差检测数据的基础上,引入了传递熵和复杂网络理论。将深度优先遍历算法与度中心性理论相结合,提出了一种基于加权传递熵和复杂网络的复杂薄壁结构关键偏差诊断方法。应用表明,基于复杂网络和加权传递熵的关键偏差源诊断方法能够准确识别影响装配质量的关键偏差源。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Key deviation source diagnosis of complex thin-walled structures based on complex networks and weighted transfer entropy
There are many deviation sources in the assembly process of aircraft complex thin-walled structures. To get important factors that affect quality, it is crucial to diagnose the key deviation resources. The deviation transfer between deviation sources and assembly parts has the characteristics of small sample size, nonlinearity, and strong coupling, so it is difficult to diagnose the key deviation sources by constructing assembly dimension chains. Therefore, based on the deviation detection data, transfer entropy and complex network theory are introduced. Integrating the depth-first traversal algorithm with degree centrality theory, a key deviation diagnosis method for complex thin-walled structures is proposed based on weighted transfer entropy and complex networks. The application shows that key deviation sources that affect assembly quality can be accurately identified by the key deviation source diagnosis method based on complex networks and weighted transfer entropy.
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