Spot welding monitoring system based on fuzzy classification and deep learning

2017 IEEE International Conference on Fuzzy Systems (FUZZ-IEEE) Pub Date : 2017-07-09 DOI:10.1109/FUZZ-IEEE.2017.8015618

Ander Muniategui, B. Heriz, Luka Eciolaza, Mikel Ayuso, A. Iturrioz, I. Quintana, P. Álvarez

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引用次数: 13

Abstract

This work is a continuation of our previous work on the development of a monitoring system of a Spot Welding production line. Here we use the process information and photographs of more than 150,000 parts to improve the predictions of the previously developed fuzzy algorithm to predict the degradation state of the electrode. And, we present an alternative method based on deep-learning that aims at substituting the image analysis software developed by us to extract values associated with the quality level of the welded parts from photographs. The deep-learning algorithm learned here is applied to compress original photographs to a 15×15 pixels size image using an encoding / decoding model. Obtained compressed images are then used to predict quality parameters from a fuzzy rule-based classification algorithm. The results are promising and show that compressed images keep the relevant information from the original image that serve to directly determine the degree of the degradation of the electrode without requiring the use of previously developed image analysis software.

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基于模糊分类和深度学习的点焊监测系统

这项工作是我们之前开发的点焊生产线监控系统的延续。在这里，我们使用超过150,000个零件的工艺信息和照片来改进先前开发的模糊算法的预测，以预测电极的退化状态。并且，我们提出了一种基于深度学习的替代方法，旨在取代我们开发的图像分析软件，从照片中提取与焊接部件质量水平相关的值。这里学习的深度学习算法应用于使用编码/解码模型将原始照片压缩到15×15像素大小的图像。然后使用得到的压缩图像从基于模糊规则的分类算法中预测质量参数。结果是有希望的，并且表明压缩图像保留了原始图像的相关信息，这些信息可以直接确定电极的退化程度，而无需使用先前开发的图像分析软件。

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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2017 IEEE International Conference on Fuzzy Systems (FUZZ-IEEE)

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