USING NEURAL NETWORKS AND DEEP LEARNING ALGORITHMS IN ELECTRICAL IMPEDANCE TOMOGRAPHY

Grzegorz Kłosowski

g.klosowski@pollub.pl
Lublin University of Technology, Faculty of Management, Department of Organization of Enterprise (Poland)

Tomasz Rymarczyk


Research and Development Center, Netrix S.A., Lublin; University of Economics and Innovation in Lublin (Poland)

Abstract

This paper refers to the cases of the use of Artificial Neural Networks and Convolutional Neural Networks in impedance tomography. Machine Learning methods can be used to teach computers different technical problems. The efficient use of conventional artificial neural networks in tomography is possible able to effectively visualize objects. The first step of implementation Deep Learning methods in Electrical Impedance Tomography was performed in this work.


Keywords:

Imaging tomography, Multilayer Perceptron, Deep Learning, Convolutional Neural Networks

Bladt E. et al.: Electron tomography based on highly limited data using a neural network reconstruction technique. Ultramicroscopy 158/2015, 81–88.
  Google Scholar

Buduma N., Locascio N.: Fundamentals of Deep Learning. Designing Next-Generation Machine Intelligence Algorithms. O'Reilly Media, 2017.
  Google Scholar

Durairaj D. C., Krishna M. C., Murugesan R.: A neural network approach for image reconstruction in electron magnetic resonance tomography. Computers in biology and medicine 37(10)/2007, 1492–1501.
  Google Scholar

Egmont-Petersen M., Ridder de D., Handels H.: Image processing with neural networks – a review. Pattern Recognition 35/2002, 2279–2301.
  Google Scholar

Minnett R. C. J. et al.: Neural network tomography: Network replication from output surface geometry. Neural Networks 24(5)/2011, 484–492.
  Google Scholar

Pelt D. M., Batenburg K. J.: Fast tomographic reconstruction from limited data using artificial neural networks. IEEE Trans. Image Process. 22/2013, 5238–5251.
  Google Scholar

Rybak G., Chaniecki Z., Grudzień K., Romanowski A., Sankowski D.: Non–invasive methods of industrial process control. Informatyka, Automatyka, Pomiary w Gospodarce i Ochronie Środowiska 4(3)/2014, 41–45.
  Google Scholar

Rymarczyk T.: New Methods to Determine Moisture Areas by Electrical Impedance Tomography. International Journal of Applied Electromagnetics and Mechanics 37(1-2)/2016, 79–87.
  Google Scholar

Stasiak M. et al.: Principal component analysis and artificial neural network approach to electrical impedance tomography problems approximated by multi-region boundary element method. Engineering Analysis with Boundary Elements 31(8)/2007, 713–720.
  Google Scholar

Tapson J.: Neural Networks and Stochastic Search Methods Applied to Capacitive Tomography. IFAC Proceedings Volumes 30(7)/1997, 631–634.
  Google Scholar

Tapson J.: Neural networks and stochastic search methods applied to industrial capacitive tomography. Control Engineering Practice 7(1)/1999, 117–121.
  Google Scholar

Tchorzewski P., Rymarczyk T., Sikora J.: Using Topological Algorithms to Solve Inverse Problem in Electrical Impedance Tomography. International Interdisciplinary Phd Workshop 2016, 46–50.
  Google Scholar

Wang J. et al.: Neural-network approach for optical tomography. Signal processing, 86(9)/2006, 2495–2502.
  Google Scholar

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Published
2017-09-30

Cited by

Kłosowski, G. ., & Rymarczyk, T. . (2017). USING NEURAL NETWORKS AND DEEP LEARNING ALGORITHMS IN ELECTRICAL IMPEDANCE TOMOGRAPHY. Informatyka, Automatyka, Pomiary W Gospodarce I Ochronie Środowiska, 7(3), 99–102. https://doi.org/10.5604/01.3001.0010.5226

Authors

Grzegorz Kłosowski 
g.klosowski@pollub.pl
Lublin University of Technology, Faculty of Management, Department of Organization of Enterprise Poland

Authors

Tomasz Rymarczyk 

Research and Development Center, Netrix S.A., Lublin; University of Economics and Innovation in Lublin Poland

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