CCBlock: an effective use of deep learning for automatic diagnosis of COVID-19 using X-ray images

Al-Bawi, Ali; Al-Kaabi, Karrar Ali; Jeryo, Mohammed; Al-Fatlawi, Ahmad

doi:10.1007/s42600-020-00110-7

Cited by 11 publications

(2 citation statements)

References 28 publications

(24 reference statements)

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“…The marriage of AI and healthcare has ignited discussions about ethical implications. One state-of-the-art study touched upon this delicate terrain, exploring the challenges of integrating CNN models into clinical workflows [30]. Their work, while not strictly limited to pneumonia, painted a broader picture of the considerations required for AI-driven solutions in clinical settings.…”

Section: G Ethical Considerations and Clinical Integrationmentioning

confidence: 99%

Deep CNN for the Identification of Pneumonia Respiratory Disease in Chest X-Ray Imagery

Nessipkhanov,

Davletova,

Kurmanbekkyzy

et al. 2023

IJACSA

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Addressing the challenges of diagnosing lower respiratory tract infections, this study unveils the potential of Deep Convolutional Neural Networks (Deep CNN) as transformative tools in medical image interpretation. Our research presents a tailored Deep CNN model, optimized for distinguishing pneumonia in chest X-ray images, a task often complicated by subtle radiological differences. We utilized an extensive dataset comprising 12,000 chest X-rays, which incorporated both pneumonia-affected and healthy samples. Through rigorous pre-processing, encompassing noise abatement, normalization, and data augmentation, a fortified training set emerged. This set was the basis for our Deep CNN, marked by intricate convolutional designs, planned dropouts, and modern activation functions. With 85% of images used for training and the balance for validation, the model manifested an impressive 98.1% accuracy, surpassing preceding approaches. Crucially, specificity and sensitivity metrics stood at 97.5% and 98.8%, highlighting the model's precision in segregating pneumonia cases from clear ones, thus reducing diagnostic errors. These results emphasize Deep CNN's transformative capability in pneumonia diagnosis via X-rays and suggest potential applications across various medical imaging facets.However, as we champion these outcomes, we must cognizantly assess potential hurdles in clinical application, encompassing ethical deliberations, model scalability, and its adaptability to ever-changing pulmonary disease profiles.

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Section: G Ethical Considerations and Clinical Integrationmentioning

confidence: 99%

Deep CNN for the Identification of Pneumonia Respiratory Disease in Chest X-Ray Imagery

Nessipkhanov,

Davletova,

Kurmanbekkyzy

et al. 2023

IJACSA

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show abstract

“…In their analysis, the proposed VGG19 [ 28 ] and DenseNET201 [ 29 ] performed well. Following a similar strategy [ 30 ], the authors presented an extension of the VGG architecture by adding a convolutional COVID block (block). The accuracy reported by the authors for the three-class categorization was 95.3%.…”

Section: Related Workmentioning

confidence: 99%

LCSB-inception: Reliable and effective light-chroma separated branches for Covid-19 detection from chest X-ray images

Ukwuoma¹,

Qin²,

Agbesi³

et al. 2022

Computers in Biology and Medicine

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Deep Residual Convolutional Neural Network Based Detection of Covid-19 from Chest-X-Ray Images

Rohini

Sobhana

et al. 2021

Digital Technologies and Applications

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CCBlock: an effective use of deep learning for automatic diagnosis of COVID-19 using X-ray images

Cited by 11 publications

References 28 publications

Deep CNN for the Identification of Pneumonia Respiratory Disease in Chest X-Ray Imagery

Deep CNN for the Identification of Pneumonia Respiratory Disease in Chest X-Ray Imagery

LCSB-inception: Reliable and effective light-chroma separated branches for Covid-19 detection from chest X-ray images

Deep Residual Convolutional Neural Network Based Detection of Covid-19 from Chest-X-Ray Images

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