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基于CNN-GRU模型的电火花线切割加工过程火花分析

Spark Analysis Based on the CNN-GRU Model for WEDM Process.

作者信息

Liu Changhong, Yang Xingxin, Peng Shaohu, Zhang Yongjun, Peng Lingxi, Zhong Ray Y

机构信息

School of Electromechanical Engineering, Guangdong University of Technology, Guangzhou 510006, China.

School of Mechanical and Electrical Engineering, Guangzhou University, Guangzhou 510006, China.

出版信息

Micromachines (Basel). 2021 Jun 16;12(6):702. doi: 10.3390/mi12060702.

Abstract

Wire electrical discharge machining (WEDM), widely used to fabricate micro and precision parts in manufacturing industry, is a nontraditional machining method using discharge energy which is transformed into thermal energy to efficiently remove materials. A great amount of research has been conducted based on pulse characteristics. However, the spark image-based approach has little research reported. This paper proposes a discharge spark image-based approach. A model is introduced to predict the discharge status using spark image features through a synchronous high-speed image and waveform acquisition system. First, the relationship between the spark image features (e.g., area, energy, energy density, distribution, etc.) and discharge status is explored by a set of experiments). Traditional methods have claimed that pulse waveform of "short" status is related to the status of non-machining while through our research, it is concluded that this is not always true by conducting experiments based on the spark images. Second, a deep learning model based on Convolution neural network (CNN) and Gated recurrent unit (GRU) is proposed to predict the discharge status. A time series of spark image features extracted by CNN form a 3D feature space is used to predict the discharge status through GRU. Moreover, a quantitative labeling method of machining state is proposed to improve the stability of the model. Due the effective features and the quantitative labeling method, the proposed approach achieves better predict result comparing with the single GRU model.

摘要

电火花线切割加工(WEDM)是一种非传统加工方法,利用放电能量转化为热能来高效去除材料,在制造业中广泛用于制造微型和精密零件。基于脉冲特性已经开展了大量研究。然而,基于火花图像的方法鲜有研究报道。本文提出一种基于放电火花图像的方法。通过同步高速图像和波形采集系统,引入一个利用火花图像特征预测放电状态的模型。首先,通过一组实验探究火花图像特征(如面积、能量、能量密度、分布等)与放电状态之间的关系。传统方法认为“短”状态的脉冲波形与非加工状态有关,但通过基于火花图像的实验研究得出,情况并非总是如此。其次,提出一种基于卷积神经网络(CNN)和门控循环单元(GRU)的深度学习模型来预测放电状态。由CNN提取的火花图像特征时间序列形成一个三维特征空间,通过GRU用于预测放电状态。此外,提出一种加工状态的定量标注方法以提高模型的稳定性。由于有效特征和定量标注方法,与单一GRU模型相比,所提方法取得了更好的预测结果。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a9c6/8235280/86e3d7f7b9a0/micromachines-12-00702-g001.jpg

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