一种基于异构图卷积网络检测工艺路线中工艺设计意图的方法

IF 9.1 1区 计算机科学 Q1 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS
Jiachen Liang , Shusheng Zhang , Changhong Xu , Yajun Zhang , Rui Huang , Hang Zhang , Zhen Wang
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引用次数: 0

摘要

工艺设计意图是技术人员设计认知过程的集中体现,其中包含经验知识和技能。它可以再现技术人员在工艺设计中的设计思维过程,并为工艺结果的生成提供指导和可解释性。加工工艺路线作为零件整个制造过程的核心组成部分,包含了大量的工艺设计意图。如果能明确识别现有工艺路线中蕴含的工艺设计意图,后续技术人员就能学习和理解原始设计者的思维、方法和意图。通过这种理解,可以在新部件的工艺设计中有效地重复使用设计思维和逻辑,而不仅仅是重复使用数据。它还能促进工艺设计意图中固有的专业知识和技能的传播。然而,现有关于工艺设计意图的研究缺乏从设计认知角度对其形成和具体结构的详细解释,这使得在工艺路线中有效预测包含可解释经验知识的工艺设计意图具有挑战性。针对这一问题,本文提供了一种利用异构图卷积网络预测工艺路线中工艺设计意图的方法。首先,使用异构图来表示数据集中的零件及其相关工艺路线。然后,根据积累和总结的工艺设计意图对图中的节点进行标注。然后将工艺路线中的工艺设计意图预测转化为异构图的节点分类问题。使用异构图卷积网络构建节点分类网络模型,输入是创建的异构图,输出是加工特征中包含的设计原因和工作步骤中蕴含的意图认知,两者都是工艺设计意图的一部分。经过训练后,所提出的模型能准确预测加工特征的设计原因和工作步骤的意图认知(分别为 95.13 % 和 96.85 %)。最后,对实际工艺路线的实例进行了分析,以验证该方法的可行性和可靠性。本文给出的方法可以帮助技术人员更深入地了解工艺路线的生成,从而提高他们的工艺设计能力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A method for detecting process design intent in the process route based on heterogeneous graph convolutional networks

The process design intent is the concentration of the technologists’ design cognitive process which contains the experiential knowledge and skills. It can reproduce technologists’ design thinking process in process design and provides guidance and interpretability for the generation of process results. The machining process route, as a core component of a part's entire manufacturing process, contains substantial process design intent. If the process design intent embedded in the existing process route can be explicitly identified, subsequent technologists will be able to learn and understand the original designers’ thinking, methodologies, and intents. This understanding enables effective reuse of design thinking and logic in the process design of new parts, rather than merely reusing data. It can also promote the propagation of the expertise and skills inherent in the process design intent. However, existing research on process design intent lacks a detailed explanation of its formation and specific structure from the design cognition perspective, making it challenging to effectively predict the process design intent containing interpretable empirical knowledge in the process route. To address this issue, this paper provides a method for predicting process design intent in the process route using heterogeneous graph convolutional networks. First, the heterogeneous graph is used to represent the parts and their associated process routes in the dataset. The nodes in the graph are then labeled based on accumulated and summarized process design intent. The prediction of process design intent in the process route is then converted into a node classification issue with heterogeneous graphs. A node classification network model is constructed using a heterogeneous graph convolutional network where the input is the created heterogeneous graph, and the output is the design reason contained in the machining feature and the intent cognition embedded in the working step, both of which are part of the process design intent. After training, the proposed model accurately predicted design reasons for machining features and intent cognitions for working steps (95.13 % and 96.85 %, respectively). Finally, examples of actual process routes are analyzed to verify the method's feasibility and reliability. The method given in this article can help technologists gain a deeper understanding of process route generation, hence improving their process design capabilities.

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来源期刊
Robotics and Computer-integrated Manufacturing
Robotics and Computer-integrated Manufacturing 工程技术-工程:制造
CiteScore
24.10
自引率
13.50%
发文量
160
审稿时长
50 days
期刊介绍: The journal, Robotics and Computer-Integrated Manufacturing, focuses on sharing research applications that contribute to the development of new or enhanced robotics, manufacturing technologies, and innovative manufacturing strategies that are relevant to industry. Papers that combine theory and experimental validation are preferred, while review papers on current robotics and manufacturing issues are also considered. However, papers on traditional machining processes, modeling and simulation, supply chain management, and resource optimization are generally not within the scope of the journal, as there are more appropriate journals for these topics. Similarly, papers that are overly theoretical or mathematical will be directed to other suitable journals. The journal welcomes original papers in areas such as industrial robotics, human-robot collaboration in manufacturing, cloud-based manufacturing, cyber-physical production systems, big data analytics in manufacturing, smart mechatronics, machine learning, adaptive and sustainable manufacturing, and other fields involving unique manufacturing technologies.
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