Your search keyword '"Jia‐Hong Chou"' showing total 2 results

1. A Deep convolutional neural network with residual blocks for wafer map defect pattern recognition

Author

Fu-Kwun Wang, Jia-Hong Chou, and Zemenu Endalamaw Amogne

Subjects

Training set, business.industry, Computer science, Pattern recognition, Management Science and Operations Research, Convolutional neural network, Class imbalance, Residual Blocks, Pattern recognition (psychology), Wafer, Artificial intelligence, Safety, Risk, Reliability and Quality, business, F1 score, Image resolution

Abstract

Different deep convolution neural network (DCNN) models have been proposed for wafer map pattern identification and classification tasks in previous studies. However, factors such as the effect of input image resolution on the classification performance of the proposed models and class imbalance in the training set after splitting the data into training and test sets have not been considered in the previous studies. This study proposes a DCNN model with residual blocks, called Opt-ResDCNN model, for wafer map defect pattern identification and classification by considering 26 * 26 input image resolutions and class imbalance issues during the model training. The proposed model is compared with the previously published defect pattern recognition and classification models in terms of accuracy, precision, recall, and F1 score for 26 * 26 input image size. Using a publicly available wafer map dataset (WM-811K), the proposed method can obtain an average accuracy, precision, recall, and F1 score results of 99.672%, 99.664%, 99.695%, 99.692%, respectively for the 26 * 26 input image resolution.

Published

2021

2. Deep Convolutional Neural Networks with Residual Blocks for Wafer Map Defect Pattern Recognition

Author

Jia-Hong Chou, Zemenu Endalamaw Amogne, and Fu-Kwun Wang

Subjects

Class imbalance, Training set, business.industry, Computer science, Residual Blocks, Pattern recognition (psychology), Wafer, Pattern recognition, Artificial intelligence, F1 score, business, Convolutional neural network, Image resolution

Abstract

Different deep convolution neural network (DCNN) models have been proposed for wafer map pattern identification and classification tasks in previous studies. However, factors such as the effect of input image resolution on the classification performance of the proposed models and class imbalance in the training set after splitting the data into training and test sets have not been considered in the previous studies. This study proposes a DCNN model with residual blocks, called Opt-ResDCNN model, for wafer map defect pattern identification and classification by considering 26 * 26 input image resolutions and class imbalance issues during the model training. The proposed model is compared with the previously published defect pattern recognition and classification models in terms of accuracy, precision, recall, and F1 score for 26 * 26 input image size. Using a publicly available wafer map dataset (WM-811K), the proposed method can obtain an average accuracy, precision, recall, and F1 score results of 99.672%, 99.664%, 99.695%, 99.692%, respectively for the 26 * 26 input image resolution.

Published

2021