Cross validation analysis of convolutional neural network variants with various white blood cells datasets for the classification task
White Blood Cells (WBCs) analysis is an important procedure to detect diseases is that closely related to human immunity system. Manual WBCs analysis is laborious and hence computer aided system (CAD) is a better option to alleviate the shortcoming. Since conventional segmentation�classificati...
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| Main Authors: | , , |
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| Format: | Article |
| Language: | English |
| Published: |
2022
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| Subjects: | |
| Online Access: | http://eprints.uthm.edu.my/6898/1/J14007_ae0dfb382d7a292ca03249e26f23cd8c.pdf http://eprints.uthm.edu.my/6898/ |
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| Summary: | White Blood Cells (WBCs) analysis is an important procedure to
detect diseases is that closely related to human immunity system. Manual
WBCs analysis is laborious and hence computer aided system (CAD) is a better
option to alleviate the shortcoming. Since conventional segmentation�classification approach is tedious to configure, a Convolutional Neural Network
(CNN) become recent trend for WBCs classification. Previously, there are
many works proposed for WBCs identification. However, the models that can
be generalised to works well among various datasets is remain vague. In this
paper, an analysis of various CNN models which are simple Alexnet, embedded
friendly Mobilenet, inception based Googlenet, systematic architecture VGG�16 and skip connection based model (Resnet & Densenet), are tested with three
major WBCs datasets (Kaggle, LISC and IDB-2). From the rigorous experi�ments, it can be concluded that simple CNN model of Alexnet performs well
across all three datasets with 98.08% accuracy on Kaggle, 96.34% accuracy on
IDB-2 and 84.52% on LISC. This outcome can be utilise as a basis to improve
the CNN classification model that can be generalize to works under various
WBCs datasets. |
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