A New Generalized Deep Learning Framework Combining Sparse Autoencoder and Taguchi Method for Novel Data Classification and Processing

A New Generalized Deep Learning Framework Combining Sparse Autoencoder and Taguchi Method for Novel Data Classification and Processing

Deep autoencoder neural networks have been widely used in several image classification and recognition problems, including hand-writing recognition, medical imaging, and face recognition. The overall performance of deep autoencoder neural networks mainly depends on the number of parameters used, str...

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Main Authors: Ahmad M. Karim, Mehmet S. Güzel, Mehmet R. Tolun, Hilal Kaya, Fatih V. Çelebi
Format: Article
Language:English
Published: Hindawi Limited 2018-01-01
Series:Mathematical Problems in Engineering
Online Access:http://dx.doi.org/10.1155/2018/3145947
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spelling doaj-8cf7e1347a59457cbc064325006aeed52020-11-25T00:54:28ZengHindawi LimitedMathematical Problems in Engineering1024-123X1563-51472018-01-01201810.1155/2018/31459473145947A New Generalized Deep Learning Framework Combining Sparse Autoencoder and Taguchi Method for Novel Data Classification and ProcessingAhmad M. Karim0Mehmet S. Güzel1Mehmet R. Tolun2Hilal Kaya3Fatih V. Çelebi4Electrical and Electronics Engineering, Aksaray University, Aksaray 68100, TurkeyComputer Engineering Department, Ankara University, Ankara 06830, TurkeyComputer Engineering Department, Baskent University, Ankara 06790, TurkeyComputer Engineerıng Department, AYBU, Ankara 06830, TurkeyComputer Engineerıng Department, AYBU, Ankara 06830, TurkeyDeep autoencoder neural networks have been widely used in several image classification and recognition problems, including hand-writing recognition, medical imaging, and face recognition. The overall performance of deep autoencoder neural networks mainly depends on the number of parameters used, structure of neural networks, and the compatibility of the transfer functions. However, an inappropriate structure design can cause a reduction in the performance of deep autoencoder neural networks. A novel framework, which primarily integrates the Taguchi Method to a deep autoencoder based system without considering to modify the overall structure of the network, is presented. Several experiments are performed using various data sets from different fields, i.e., network security and medicine. The results show that the proposed method is more robust than some of the well-known methods in the literature as most of the time our method performed better. Therefore, the results are quite encouraging and verified the overall performance of the proposed framework.http://dx.doi.org/10.1155/2018/3145947
collection DOAJ
language English
format Article
sources DOAJ
author Ahmad M. Karim
Mehmet S. Güzel
Mehmet R. Tolun
Hilal Kaya
Fatih V. Çelebi
spellingShingle Ahmad M. Karim
Mehmet S. Güzel
Mehmet R. Tolun
Hilal Kaya
Fatih V. Çelebi
A New Generalized Deep Learning Framework Combining Sparse Autoencoder and Taguchi Method for Novel Data Classification and Processing
Mathematical Problems in Engineering
author_facet Ahmad M. Karim
Mehmet S. Güzel
Mehmet R. Tolun
Hilal Kaya
Fatih V. Çelebi
author_sort Ahmad M. Karim
title A New Generalized Deep Learning Framework Combining Sparse Autoencoder and Taguchi Method for Novel Data Classification and Processing
title_short A New Generalized Deep Learning Framework Combining Sparse Autoencoder and Taguchi Method for Novel Data Classification and Processing
title_full A New Generalized Deep Learning Framework Combining Sparse Autoencoder and Taguchi Method for Novel Data Classification and Processing
title_fullStr A New Generalized Deep Learning Framework Combining Sparse Autoencoder and Taguchi Method for Novel Data Classification and Processing
title_full_unstemmed A New Generalized Deep Learning Framework Combining Sparse Autoencoder and Taguchi Method for Novel Data Classification and Processing
title_sort new generalized deep learning framework combining sparse autoencoder and taguchi method for novel data classification and processing
publisher Hindawi Limited
series Mathematical Problems in Engineering
issn 1024-123X
1563-5147
publishDate 2018-01-01
description Deep autoencoder neural networks have been widely used in several image classification and recognition problems, including hand-writing recognition, medical imaging, and face recognition. The overall performance of deep autoencoder neural networks mainly depends on the number of parameters used, structure of neural networks, and the compatibility of the transfer functions. However, an inappropriate structure design can cause a reduction in the performance of deep autoencoder neural networks. A novel framework, which primarily integrates the Taguchi Method to a deep autoencoder based system without considering to modify the overall structure of the network, is presented. Several experiments are performed using various data sets from different fields, i.e., network security and medicine. The results show that the proposed method is more robust than some of the well-known methods in the literature as most of the time our method performed better. Therefore, the results are quite encouraging and verified the overall performance of the proposed framework.
url http://dx.doi.org/10.1155/2018/3145947
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