@article{ART002955754,
author={Bo Wook Seo and Sung Bin Han and Jun Young Heo and Seok Kim and Young Tae Cho},
title={A Study on the Development of Deep Learning Algorithm for Determining External Quality of Welded Parts Using Transfer Learning},
journal={대한용접접합학회지},
issn={2466-2232},
year={2023},
volume={41},
number={2},
pages={132-139}
}

TY - JOUR
AU - Bo Wook Seo
AU - Sung Bin Han
AU - Jun Young Heo
AU - Seok Kim
AU - Young Tae Cho
TI - A Study on the Development of Deep Learning Algorithm for Determining External Quality of Welded Parts Using Transfer Learning
T2 - 대한용접접합학회지
JO - 대한용접접합학회지
PY - 2023
VL - 41
IS - 2
PB - 대한용접접합학회
SP - 132
EP - 139
SN - 2466-2232
AB - Recently, deep learning has been applied to various welding techniques, such as laser welding, gas metal arc welding (GMAW), and resistance spot welding, and research on automation and quality prediction is being conducted. Even for GMAW, many researchers have attempted to predict quality through X-ray, current, and voltage measurements. If judgment in real time is not necessary, it is most effective to judge the quality of a welded part using an exterior image. Therefore, in this study, a welded appearance quality judgment model was analyzed using image deep learning. Welding defects were classified into pores, overlaps, craters, melting of the base material, cracks, and undercuts, and were divided into 7 categories including normal ones. In constructing the deep-learning model, transfer learning was performed using existing networks, such as ResNet and AlexNet. To improve the accuracy of deep learning, tests were performed while the optimization technique, maximum number of epochs, and minibatch size were changed. It was confirmed that the accuracy of weld defect prediction improved as the minibatch size increased, and the stochastic gradient descent model had the highest accuracy. Increasing the number of data for learning should make the technique of using images to judge the quality of GMAW welds using the proposed model more widely applicable.
KW - Weld quality, Weld appearance, Deep learning, CNN (Convolution Neural Network), ResNet
DO -
UR -
ER -

Bo Wook Seo, Sung Bin Han, Jun Young Heo, Seok Kim and Young Tae Cho. 2023, "A Study on the Development of Deep Learning Algorithm for Determining External Quality of Welded Parts Using Transfer Learning", 대한용접접합학회지, vol.41, no.2 pp.132-139.

Bo Wook Seo, Sung Bin Han, Jun Young Heo, Seok Kim, Young Tae Cho "A Study on the Development of Deep Learning Algorithm for Determining External Quality of Welded Parts Using Transfer Learning" 대한용접접합학회지 41.2 pp.132-139 (2023) : 132.

Bo Wook Seo, Sung Bin Han, Jun Young Heo, Seok Kim, Young Tae Cho. A Study on the Development of Deep Learning Algorithm for Determining External Quality of Welded Parts Using Transfer Learning. 2023; 41(2), 132-139.

Bo Wook Seo, Sung Bin Han, Jun Young Heo, Seok Kim and Young Tae Cho. "A Study on the Development of Deep Learning Algorithm for Determining External Quality of Welded Parts Using Transfer Learning" 대한용접접합학회지 41, no.2 (2023) : 132-139.

Bo Wook Seo; Sung Bin Han; Jun Young Heo; Seok Kim; Young Tae Cho. A Study on the Development of Deep Learning Algorithm for Determining External Quality of Welded Parts Using Transfer Learning. 대한용접접합학회지, 41(2), 132-139.

Bo Wook Seo; Sung Bin Han; Jun Young Heo; Seok Kim; Young Tae Cho. A Study on the Development of Deep Learning Algorithm for Determining External Quality of Welded Parts Using Transfer Learning. 대한용접접합학회지. 2023; 41(2) 132-139.

Bo Wook Seo, Sung Bin Han, Jun Young Heo, Seok Kim, Young Tae Cho. A Study on the Development of Deep Learning Algorithm for Determining External Quality of Welded Parts Using Transfer Learning. 2023; 41(2), 132-139.

Bo Wook Seo, Sung Bin Han, Jun Young Heo, Seok Kim and Young Tae Cho. "A Study on the Development of Deep Learning Algorithm for Determining External Quality of Welded Parts Using Transfer Learning" 대한용접접합학회지 41, no.2 (2023) : 132-139.