Article Sidebar
Main Article Content
This paper presents an improved method for recognizing the drill state on the basis of hole images drilled in a laminated chipboard, using convolutional neural network (CNN) and data augmentation techniques. Three classes were used to describe the drill state: red - for drill that is worn out and should be replaced, yellow - for state in which the system should send a warning to the operator, indicating that this element should be checked manually, and green - denoting the drill that is still in good condition, which allows for further use in the production process. The presented method combines the advantages of transfer learning and data augmentation methods to improve the accuracy of the received evaluations. In contrast to the classical deep learning methods, transfer learning requires much smaller training data sets to achieve acceptable results. At the same time, data augmentation customized for drill wear recognition makes it possible to expand the original dataset and to improve the overall accuracy. The experiments performed have confirmed the suitability of the presented approach to accurate class recognition in the given problem, even while using a small original dataset.
Article Details
K. Jemielniak, T. Urbański, J. Kossakowska, S. Bombińnski. Tool condition monitoring based on numerous signal features. Int. J. Adv. Manuf. Technol., vol. 59, pp. 73-81, 2012 (Crossref)
S. S. Panda, A. K. Singh, D. Chakraborty, S. K. Pal. Drill wear monitoring using back propagation neural network. Journal of Materials Processing Technology, vol. 172, pp. 283-290, 2006. (Crossref)
R. J. Kuo. Multi-sensor integration for on-line tool wear estimation through artificial neural networks and fuzzy neural network. Engineering Applications of Artificial Intelligence, vol. 13, pp. 249-261, 2000. (Crossref)
J. Kurek, M. Kruk, S. Osowski, P. Hoser, G. Wieczorek, A. Jegorowa, J. Górski, J. Wilkowski, K. Śmietańska, J. Kossakowska. Developing automatic recognition system of drill wear in standard laminated chipboard drilling process. Bulletin of the Polish Academy of Sciences. Technical Sciences, vol. 64, pp. 633-640, 2016. (Crossref)
J. Kurek, G. Wieczorek, M. Kruk, A. Jegorowa, S. Osowski. Transfer learning in recognition of drill wear using convolutional neural network. 18th International Conference on Computational Problems of Electrical Engineering (CPEE) (pp. 1-4). IEEE. September 2017. (Crossref)
J. Kurek, B. Swiderski, A. Jegorowa, M. Kruk, S. Osowski. Deep learning in assessment of drill condition on the basis of images of drilled holes. Proc. SPIE 10225 Eighth International Conference on Graphic and Image Processing (ICGIP 2016), pp. 102251V, February 8, 2017. (Crossref)
L. Deng, D. Yu. Deep Learning: Methods and Applications. Foundations and Trends in Signal Processing, vol. 7, pp. 3-4, 2014. (Crossref)
Y. Bengio. Learning Deep Architectures for AI. Foundations and Trends in Machine Learning, vol. 2, no. 1, pp. 1-127, 2009. (Crossref)
I. Goodfellow, Y. Bengio, A. Courville. Deep learning, MIT Press, 2016.
J. Schmidhuber. Deep Learning in Neural Networks: An Overview. Neural Networks, vol. 61, pp. 85-117, 2015. (Crossref)
A. Krizhevsky, I. Sutskever, G. Hinton. Image net classification with deep convolutional neural networks. Advances in Neural Information Processing Systems, vol. 25, pp. 1-9, 2012.
O. Russakovsky, J. Deng, H. Su et al. ImageNet Large Scale Visual Recognition Challenge International Journal of Computer Vision (IJCV), vol. 115, no. 3, pp. 211-252, 2015. (Crossref)
BVLC AlexNet Model. Online: https://github.com/BVLC/caffe/tree/master/models/bvlc_alexnet.
Matlab 2017a – User manual, Natick, MA, USA: The MathWorks, Inc, 2017.
J. Kurek, I. Antoniuk, J. Górski, A. Jegorowa, B. Świderski, M. Kruk, G. Wieczorek, J. Pach, A. Orłowski, and J. Aleksiejuk-Gawron. Classifiers ensemble of transfer learning for improved drill wear classification using convolutional neural network. Machine Graphics & Vision, 28(1/4):13–13, 2019. https://doi.org/10.22630/MGV.2019.28.1.2. (Crossref)
ImageNet. Online: http://www.image-net.org.
B. Scholkopf, A. Smola. Learning with Kernels, Cambridge: MIT Press, 2002.
M. Kruk, B. Świderski, S. Osowski, J. Kurek, M. Słowińska, I. Walecka. Melanoma recognition using extended set of descriptors and classifiers. Eurasip Journal on Image and Video Processing, vol. 43, pp. 1-10, 2015. (Crossref)
V. N. Vapnik. Statistical Learning Theory, New York: Wiley, 1998.
Description of Matlab image transformations. Online: https://www.mathworks.com/help/deeplearning/examples/image-augmentation-using-image-processing-toolbox.html.
Downloads
- Grzegorz Wieczorek, Izabella Antoniuk, Michał Kruk, Jarosław Kurek, Arkadiusz Orłowski, Jakub Pach, Bartosz Świderski, BCT Boost Segmentation with U-net in TensorFlow , Machine Graphics and Vision: Vol. 28 No. 1/4 (2019)
You may also start an advanced similarity search for this article.
- Izabella Antoniuk, Generating layout for complex cave-like levels with schematic maps and Cellular Automata , Machine Graphics and Vision: Vol. 32 No. 2 (2023)
- Jarosław Kurek, Joanna Aleksiejuk-Gawron, Izabella Antoniuk, Jarosław Górski, Albina Jegorowa, Michał Kruk, Arkadiusz Orłowski, Jakub Pach, Bartosz Świderski, Grzegorz Wieczorek, Classifiers ensemble of transfer learning for improved drill wear classification using convolutional neural network , Machine Graphics and Vision: Vol. 28 No. 1/4 (2019)
- Oleksandr Fedoruk, Konrad Klimaszewski, Aleksander Ogonowski, Michał Kruk, Additional look into GAN-based augmentation for deep learning COVID-19 image classification , Machine Graphics and Vision: Vol. 32 No. 3/4 (2023)
- Izabella Antoniuk, Artur Krupa, Radosław Roszczyk, Normal Patch Retinex robust algorithm for white balancing in digital microscopy , Machine Graphics and Vision: Vol. 29 No. 1/4 (2020)
- Jarosław Kurek, Karol Szymanowski, Leszek Chmielewski, Arkadiusz Orłowski, Advancing chipboard milling process monitoring through spectrogram-based time series analysis with Convolutional Neural Network using pretrained networks , Machine Graphics and Vision: Vol. 32 No. 2 (2023)
- Leszek Chmielewski, Arkadiusz Orłowski, Hough transform for lines with slope defined by a pair of co-primes , Machine Graphics and Vision: Vol. 22 No. 1/4 (2013)
- Krzysztof Gajowniczek, Marcin Bator, Katarzyna Śmietańska, Jarosław Górski, Assessment of the possibility of imitating experts' aesthetic judgments about the impact of knots on the attractiveness of furniture fronts made of pine wood , Machine Graphics and Vision: Vol. 32 No. 2 (2023)
- Grzegorz Wieczorek, Izabella Antoniuk, Michał Kruk, Jarosław Kurek, Arkadiusz Orłowski, Jakub Pach, Bartosz Świderski, BCT Boost Segmentation with U-net in TensorFlow , Machine Graphics and Vision: Vol. 28 No. 1/4 (2019)
- Jakub Pach, Izabella Antoniuk, Leszek Chmielewski, Jarosław Górski, Michał Kruk, Jarosław Kurek, Arkadiusz Orłowski, Katarzyna Śmietańska, Bartosz Świderski, Grzegorz Wieczorek, Textural features based on run length encoding in the classification of furniture surfaces with the orange skin defect , Machine Graphics and Vision: Vol. 28 No. 1/4 (2019)
- Karol Talacha, Izabella Antoniuk, Leszek Chmielewski, Michał Kruk, Jarosław Kurek, Arkadiusz Orłowski, Jakub Pach, Andrzej Półtorak, Bartosz Świderski, Grzegorz Wieczorek, Context-based segmentation of the longissimus muscle in beef with a deep neural network , Machine Graphics and Vision: Vol. 28 No. 1/4 (2019)