An Integrated Design Based on Dual Thresholding and Features Optimization for White Blood Cells Detection
White blood cells (WBC) are an important component of immune mechanism, as they protect human body from parasites, viruses, fungi, and bacteria. The number of blood cells provides significant information related to infections such as AIDS, leukemia, deficiencies of immune and autoimmune infections....
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IEEE
2021
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oai:doaj.org-article:930a46479aeb4dfba9a49da96084c1b52021-11-17T00:00:48ZAn Integrated Design Based on Dual Thresholding and Features Optimization for White Blood Cells Detection2169-353610.1109/ACCESS.2021.3123256https://doaj.org/article/930a46479aeb4dfba9a49da96084c1b52021-01-01T00:00:00Zhttps://ieeexplore.ieee.org/document/9586554/https://doaj.org/toc/2169-3536White blood cells (WBC) are an important component of immune mechanism, as they protect human body from parasites, viruses, fungi, and bacteria. The number of blood cells provides significant information related to infections such as AIDS, leukemia, deficiencies of immune and autoimmune infections. To heal an infection in a timely manner, it is critical to recognize it early on. Therefore, a method is proposed to accurately segment and classify WBC at an early stage. The RGB image is converted into HSV after which dual thresholding is applied to the saturation component to segment WBC. The 1000 features are extracted from Alexnet to FC8 layer, Logits layer is selected for feature extraction from mobilenetv2, node_202 layer is utilized to extract the features from shuffle net and FC1000 layer is chosen from Resnet-18 model. Four feature vectors are obtained from transfer learning models; these feature vectors are combined serially and create the final optimized vector by non-dominated sorting genetic algorithm (NSGA). The classification results are investigated on the fusion of Alexnet, shuffle net, Resnet-18, mobilenetv2 and the fusion of mobilenetv2, shuffle net and Resnet-18 whereas mobilenetv2 features are fused independently. The method is tested on three publicly available datasets such as LISC, ALL_IDB1, and ALL_IDB2. The method achieved maximum 1.00 accuracy to classify the blast/non-blast cells, 0.9992 accuracy on Basophil cells, and 1.00 accuracy on Lymphocyte, Neutrophil, Monocyte, Eosinophil, and mixture of these cells. When compared to existing modern approaches, the proposed method produces better outcomes.Javaria AminMuhammad SharifMuhammad Almas AnjumMussarat YasminKhalid Iqbal KhattakSeifedine KadrySanghyun SeoIEEEarticleThresholdingdeep featuresfusionHSVleukemiaElectrical engineering. Electronics. Nuclear engineeringTK1-9971ENIEEE Access, Vol 9, Pp 151421-151433 (2021) |
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Thresholding deep features fusion HSV leukemia Electrical engineering. Electronics. Nuclear engineering TK1-9971 |
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Thresholding deep features fusion HSV leukemia Electrical engineering. Electronics. Nuclear engineering TK1-9971 Javaria Amin Muhammad Sharif Muhammad Almas Anjum Mussarat Yasmin Khalid Iqbal Khattak Seifedine Kadry Sanghyun Seo An Integrated Design Based on Dual Thresholding and Features Optimization for White Blood Cells Detection |
| description |
White blood cells (WBC) are an important component of immune mechanism, as they protect human body from parasites, viruses, fungi, and bacteria. The number of blood cells provides significant information related to infections such as AIDS, leukemia, deficiencies of immune and autoimmune infections. To heal an infection in a timely manner, it is critical to recognize it early on. Therefore, a method is proposed to accurately segment and classify WBC at an early stage. The RGB image is converted into HSV after which dual thresholding is applied to the saturation component to segment WBC. The 1000 features are extracted from Alexnet to FC8 layer, Logits layer is selected for feature extraction from mobilenetv2, node_202 layer is utilized to extract the features from shuffle net and FC1000 layer is chosen from Resnet-18 model. Four feature vectors are obtained from transfer learning models; these feature vectors are combined serially and create the final optimized vector by non-dominated sorting genetic algorithm (NSGA). The classification results are investigated on the fusion of Alexnet, shuffle net, Resnet-18, mobilenetv2 and the fusion of mobilenetv2, shuffle net and Resnet-18 whereas mobilenetv2 features are fused independently. The method is tested on three publicly available datasets such as LISC, ALL_IDB1, and ALL_IDB2. The method achieved maximum 1.00 accuracy to classify the blast/non-blast cells, 0.9992 accuracy on Basophil cells, and 1.00 accuracy on Lymphocyte, Neutrophil, Monocyte, Eosinophil, and mixture of these cells. When compared to existing modern approaches, the proposed method produces better outcomes. |
| format |
article |
| author |
Javaria Amin Muhammad Sharif Muhammad Almas Anjum Mussarat Yasmin Khalid Iqbal Khattak Seifedine Kadry Sanghyun Seo |
| author_facet |
Javaria Amin Muhammad Sharif Muhammad Almas Anjum Mussarat Yasmin Khalid Iqbal Khattak Seifedine Kadry Sanghyun Seo |
| author_sort |
Javaria Amin |
| title |
An Integrated Design Based on Dual Thresholding and Features Optimization for White Blood Cells Detection |
| title_short |
An Integrated Design Based on Dual Thresholding and Features Optimization for White Blood Cells Detection |
| title_full |
An Integrated Design Based on Dual Thresholding and Features Optimization for White Blood Cells Detection |
| title_fullStr |
An Integrated Design Based on Dual Thresholding and Features Optimization for White Blood Cells Detection |
| title_full_unstemmed |
An Integrated Design Based on Dual Thresholding and Features Optimization for White Blood Cells Detection |
| title_sort |
integrated design based on dual thresholding and features optimization for white blood cells detection |
| publisher |
IEEE |
| publishDate |
2021 |
| url |
https://doaj.org/article/930a46479aeb4dfba9a49da96084c1b5 |
| work_keys_str_mv |
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