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Artificial Life and Robotics
Published in: Artificial Life and Robotics 2/2018

22-12-2017 | Original Article

Medical image analysis of abdominal X-ray CT images by deep multi-layered GMDH-type neural network

Authors: Shoichiro Takao, Sayaka Kondo, Junji Ueno, Tadashi Kondo

Published in: Artificial Life and Robotics | Issue 2/2018

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Abstract

In this study, a deep multi-layered group method of data handling (GMDH)-type neural network is applied to the medical image analysis of the abdominal X-ray computed tomography (CT) images. The deep neural network architecture which has many hidden layers are automatically organized using the deep multi-layered GMDH-type neural network algorithm so as to minimize the prediction error criterion defined as Akaike’s information criterion (AIC) or prediction sum of squares (PSS). The characteristics of the medical images are very complex and therefore the deep neural network architecture is very useful for the medical image diagnosis and medical image recognition. In this study, it is shown that this deep multi-layered GMDH-type neural network is useful for the medical image analysis of abdominal X-ray CT images.
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Literature
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Kondo T (1998) GMDH neural network algorithm using the heuristic self-organization method and its application to the pattern identification problem, In: Proceedings of the 37th SICE Annual Conference, pp. 1143–1148
2.
Kondo T, Ueno J, Takao S (2015) Deep multi-layered GMDH-type neural network using principal component-regression analysis and its application to medical image recognition of brain and blood vessels, In: Proceedings of the 20th international symposium on artificial life and robotics 2015, pp. 339–342
3.
Kondo T, Ueno J, Takao S (2015) Deep feedback GMDH-type neural network using principal component-regression analysis and its application to medical image recognition of abdominal multi-organs. J Robot Netw Artif Life 2:94–99CrossRef
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Farlow SJ (ed) (1984) Self-organizing methods in modeling, GMDH-type algorithm. Marcel Dekker, Inc., New YorkMATH
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Ivakhnenko AG (1970) Heuristic self-organization in problems of engineering cybernetics. Automatica 6(2):207–219CrossRef
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Tamura H, Kondo T (1980) Heuristics free group method of data handling algorithm of generating optimum partial polynomials with application to air pollution prediction. Int J Syst Sci 11(9):1095–1111CrossRef
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Draper NR, Smith H (1981) Applied regression analysis. Wiley, New YorkMATH
Metadata
Title
Medical image analysis of abdominal X-ray CT images by deep multi-layered GMDH-type neural network
Authors
Shoichiro Takao
Sayaka Kondo
Junji Ueno
Tadashi Kondo
Publication date
22-12-2017
Publisher
Springer Japan
Published in
Artificial Life and Robotics / Issue 2/2018
Print ISSN: 1433-5298
Electronic ISSN: 1614-7456
DOI
https://doi.org/10.1007/s10015-017-0420-z

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