Can convolution neural network (CNN) triumph in ear recognition of uniform illumination invariant?

Current deep convolution neural network (CNN) has shown to achieve superior performance on a number of computer vision tasks such as image recognition, classification and object detection. The deep network was also tested for view-invariance, robustness and illumination invariance. However, the CNN...

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Main Authors: Jamil N., Almisreb A.A., Ariffin S.M.Z.S.Z., Md Din N., Hamzah R.
Other Authors: 6603538109
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Published: Institute of Advanced Engineering and Science 2023
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Institution: Universiti Tenaga Nasional
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spelling my.uniten.dspace-237412023-05-29T14:51:25Z Can convolution neural network (CNN) triumph in ear recognition of uniform illumination invariant? Jamil N. Almisreb A.A. Ariffin S.M.Z.S.Z. Md Din N. Hamzah R. 6603538109 50460937600 56494612000 9335429400 55516675400 Current deep convolution neural network (CNN) has shown to achieve superior performance on a number of computer vision tasks such as image recognition, classification and object detection. The deep network was also tested for view-invariance, robustness and illumination invariance. However, the CNN architecture has thus far only been tested on non-uniform illumination invariant. Can CNN perform equally well for very underexposed or overexposed images or known as uniform illumination invariant? This is the gap that we are addressing in this paper. In our work, we collected ear images under different uniform illumination conditions with lumens or lux values ranging from 2 lux to 10,700 lux. A total of 1,100 left and right ear images from 55 subjects are captured under natural illumination conditions. As CNN requires considerably large amount of data, the ear images are further rotated at every 5o angles to generate 25,300 images. For each subject, 50 images are used as validation/testing dataset, while the remaining images are used as training datasets. Our proposed CNN model is then trained from scratch and validation and testing results showed recognition accuracy of 97%. The results showed that 100% accuracy is achieved for images with lumens ranging above 30 but having problem with lumens less than 10 lux. � 2018 Institute of Advanced Engineering and Science. All rights reserved. Final 2023-05-29T06:51:25Z 2023-05-29T06:51:25Z 2018 Article 10.11591/ijeecs.v11.i2.pp558-566 2-s2.0-85048180302 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85048180302&doi=10.11591%2fijeecs.v11.i2.pp558-566&partnerID=40&md5=bbfa7652cfe10ed7da8d9c31f7f0b19d https://irepository.uniten.edu.my/handle/123456789/23741 11 2 558 566 All Open Access, Hybrid Gold, Green Institute of Advanced Engineering and Science Scopus
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description Current deep convolution neural network (CNN) has shown to achieve superior performance on a number of computer vision tasks such as image recognition, classification and object detection. The deep network was also tested for view-invariance, robustness and illumination invariance. However, the CNN architecture has thus far only been tested on non-uniform illumination invariant. Can CNN perform equally well for very underexposed or overexposed images or known as uniform illumination invariant? This is the gap that we are addressing in this paper. In our work, we collected ear images under different uniform illumination conditions with lumens or lux values ranging from 2 lux to 10,700 lux. A total of 1,100 left and right ear images from 55 subjects are captured under natural illumination conditions. As CNN requires considerably large amount of data, the ear images are further rotated at every 5o angles to generate 25,300 images. For each subject, 50 images are used as validation/testing dataset, while the remaining images are used as training datasets. Our proposed CNN model is then trained from scratch and validation and testing results showed recognition accuracy of 97%. The results showed that 100% accuracy is achieved for images with lumens ranging above 30 but having problem with lumens less than 10 lux. � 2018 Institute of Advanced Engineering and Science. All rights reserved.
author2 6603538109
author_facet 6603538109
Jamil N.
Almisreb A.A.
Ariffin S.M.Z.S.Z.
Md Din N.
Hamzah R.
format Article
author Jamil N.
Almisreb A.A.
Ariffin S.M.Z.S.Z.
Md Din N.
Hamzah R.
spellingShingle Jamil N.
Almisreb A.A.
Ariffin S.M.Z.S.Z.
Md Din N.
Hamzah R.
Can convolution neural network (CNN) triumph in ear recognition of uniform illumination invariant?
author_sort Jamil N.
title Can convolution neural network (CNN) triumph in ear recognition of uniform illumination invariant?
title_short Can convolution neural network (CNN) triumph in ear recognition of uniform illumination invariant?
title_full Can convolution neural network (CNN) triumph in ear recognition of uniform illumination invariant?
title_fullStr Can convolution neural network (CNN) triumph in ear recognition of uniform illumination invariant?
title_full_unstemmed Can convolution neural network (CNN) triumph in ear recognition of uniform illumination invariant?
title_sort can convolution neural network (cnn) triumph in ear recognition of uniform illumination invariant?
publisher Institute of Advanced Engineering and Science
publishDate 2023
_version_ 1806425827824369664