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- Title
A Machine Learning Method for Detection of Surface Defects on Ceramic Tiles Using Convolutional Neural Networks.
- Authors
Stephen, Okeke; Maduh, Uchenna Joseph; Sain, Mangal
- Abstract
We propose a simple but effective convolutional neural network to learn the similarities between closely related raw pixel images for feature representation extraction and classification through the initialization of convolutional kernels from learned filter kernels of the network. The binary-class classification of sigmoid and discriminative feature vectors are simultaneously learned together contrasting the handcrafted traditional method of feature extractions, which split feature-extraction and classification tasks into two different processes during training. Relying on the high-quality feature representation learned by the network, the classification tasks can be efficiently conducted. We evaluated the classification performance of our proposed method using a collection of tile surface images consisting of cracked surfaces and no-cracked surfaces. We tried to classify the tiny-cracked surfaces from non-crack normal tile demarcations, which could be useful for automated visual inspections that are labor intensive, risky in high altitudes, and time consuming with manual inspection methods. We performed a series of comparisons on the results obtained by varying the optimization, activation functions, and deployment of different data augmentation methods in our network architecture. By doing this, the effectiveness of the presented model for smooth surface defect classification was explored and determined. Through extensive experimentation, we obtained a promising validation accuracy and minimal loss.
- Subjects
CONVOLUTIONAL neural networks; SURFACE defects; MACHINE learning; CERAMIC tiles; SIGNAL convolution; DATA augmentation; FEATURE extraction
- Publication
Electronics (2079-9292), 2022, Vol 11, Issue 1, p55
- ISSN
2079-9292
- Publication type
Article
- DOI
10.3390/electronics11010055