Tarun Agrawal scite author profile

COVID-19 is an acronym for coronavirus disease 2019. Initially, it was called 2019-nCoV, and later International Committee on Taxonomy of Viruses (ICTV) termed it SARS-CoV-2. On 30th January 2020, the World Health Organization (WHO) declared it a pandemic. With an increasing number of COVID-19 cases, the available medical infrastructure is essential to detect the suspected cases. Medical imaging techniques such as Computed Tomography (CT), chest radiography can play an important role in the early screening and detection of COVID-19 cases. It is important to identify and separate the cases to stop the further spread of the virus. Artificial Intelligence can play an important role in COVID-19 detection and decreases the workload on collapsing medical infrastructure. In this paper, a deep convolutional neural network-based architecture is proposed for the COVID-19 detection using chest radiographs. The dataset used to train and test the model is available on different public repositories. Despite having the high accuracy of the model, the decision on COVID-19 should be made in consultation with the trained medical clinician.

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Segmentation and classification on chest radiography: a systematic survey

Agrawal

Choudhary

2022

Vis Comput

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Chest radiography (X-ray) is the most common diagnostic method for pulmonary disorders. A trained radiologist is required for interpreting the radiographs. But sometimes, even experienced radiologists can misinterpret the findings. This leads to the need for computer-aided detection diagnosis. For decades, researchers were automatically detecting pulmonary disorders using the traditional computer vision (CV) methods. Now the availability of large annotated datasets and computing hardware has made it possible for deep learning to dominate the area. It is now the modus operandi for feature extraction, segmentation, detection, and classification tasks in medical imaging analysis. This paper focuses on the research conducted using chest X-rays for the lung segmentation and detection/classification of pulmonary disorders on publicly available datasets. The studies performed using the Generative Adversarial Network (GAN) models for segmentation and classification on chest X-rays are also included in this study. GAN has gained the interest of the CV community as it can help with medical data scarcity. In this study, we have also included the research conducted before the popularity of deep learning models to have a clear picture of the field. Many surveys have been published, but none of them is dedicated to chest X-rays. This study will help the readers to know about the existing techniques, approaches, and their significance.

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A Future Communication Technology: 5G

Kumar¹,

Agrawal²,

Singh³

2016

IJFGCN

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ALCNN: Attention based lightweight convolutional neural network for pneumothorax detection in chest X-rays

Agrawal

Choudhary²

2023

Biomedical Signal Processing and Control

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Comparative analysis of convolutional codes based on ML decoding

Agrawal

Kumar

Saraswat

2016

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Tarun Agrawal

FocusCovid: automated COVID-19 detection using deep learning with chest X-ray images

Segmentation and classification on chest radiography: a systematic survey

A Future Communication Technology: 5G

ALCNN: Attention based lightweight convolutional neural network for pneumothorax detection in chest X-rays

Comparative analysis of convolutional codes based on ML decoding

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