KL-MOB: automated COVID-19 recognition using a novel approach based on image enhancement and a modified MobileNet CNN

Taresh, Mundher Mohammed; Zhu, Ningbo; Ali, Talal Ahmed Ali; Alghaili, Mohammed; Hameed, Asaad Shakir; Mutar, Modhi Lafta

doi:10.7717/peerj-cs.694

Cited by 4 publications

(1 citation statement)

References 55 publications

(77 reference statements)

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“…Chen et al [12] developed the ensemble CNN method combined with several trained CNN models with the most sampling strategy in the classification of COVID-19 based on chest X-ray images. Taresh et al [13] proposed a CNN method called KL-MOB by adding Kullback-Leibler (KL) in image processing-based COVID-19 detection. Sampath et al [14] has evaluated the development of techniques based on generative adversarial neural networks (GANs) in overcoming the problem of image data imbalance.…”

Section: Introductionmentioning

confidence: 99%

Morphological features of lung white spots based on the Otsu and Phansalkar thresholding method

Supriyanti,

Luke Dzihniza,

Alqaaf

et al. 2024

IJEECS

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<span>COVID-19 is a disease that causes respiratory system disorders, so various tests are needed. One of them uses a chest X-ray or thorax. A chest X-ray will depict the lungs as a whole so that patches like white shadows will be visible. In this study, the number of lung areas and white spots can be observed and detected using segmentation techniques in image processing. But before entering the segmentation stage, the image will go through the preprocessing stage using the tri-threshold fuzzy intensification operators (fuzzy IO) method. It then segmented the lungs using the Otsu method by changing the digital image from grey to black and white based on comparing the threshold value with the pixel colour value of the digital image. Then, further segmentation was carried out using the Phansalkar method to detect and simultaneously count the number of white spots. Referring to the experiments we have carried out, Otsu Phansalkar's segmentation performance promises to be developed further.</span>

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Section: Introductionmentioning

confidence: 99%

Morphological features of lung white spots based on the Otsu and Phansalkar thresholding method

Supriyanti,

Luke Dzihniza,

Alqaaf

et al. 2024

IJEECS

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Fine-Tuning MobileNet for Breast Cancer Diagnosis

Luong

Phan

Dinh

et al. 2023

Inventive Computation and Information Technologies

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A survey on deep learning models for detection of COVID-19

Mozaffari

Amirkhani

Shokouhi

2023

Neural Comput & Applic

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The spread of the COVID-19 started back in 2019; and so far, more than 4 million people around the world have lost their lives to this deadly virus and its variants. In view of the high transmissibility of the Corona virus, which has turned this disease into a global pandemic, artificial intelligence can be employed as an effective tool for an earlier detection and treatment of this illness. In this review paper, we evaluate the performance of the deep learning models in processing the X-Ray and CT-Scan images of the Corona patients’ lungs and describe the changes made to these models in order to enhance their Corona detection accuracy. To this end, we introduce the famous deep learning models such as VGGNet, GoogleNet and ResNet and after reviewing the research works in which these models have been used for the detection of COVID-19, we compare the performances of the newer models such as DenseNet, CapsNet, MobileNet and EfficientNet. We then present the deep learning techniques of GAN, transfer learning, and data augmentation and examine the statistics of using these techniques. Here, we also describe the datasets introduced since the onset of the COVID-19. These datasets contain the lung images of Corona patients, healthy individuals, and the patients with non-Corona pulmonary diseases. Lastly, we elaborate on the existing challenges in the use of artificial intelligence for COVID-19 detection and the prospective trends of using this method in similar situations and conditions. Supplementary Information The online version contains supplementary material available at 10.1007/s00521-023-08683-x.

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KL-MOB: automated COVID-19 recognition using a novel approach based on image enhancement and a modified MobileNet CNN

Cited by 4 publications

References 55 publications

Morphological features of lung white spots based on the Otsu and Phansalkar thresholding method

Morphological features of lung white spots based on the Otsu and Phansalkar thresholding method

Fine-Tuning MobileNet for Breast Cancer Diagnosis

A survey on deep learning models for detection of COVID-19

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