మా గ్రూప్ ప్రతి సంవత్సరం USA, యూరప్ & ఆసియా అంతటా 3000+ గ్లోబల్ కాన్ఫరెన్స్ ఈవెంట్లను నిర్వహిస్తుంది మరియు 1000 కంటే ఎక్కువ సైంటిఫిక్ సొసైటీల మద్దతుతో 700+ ఓపెన్ యాక్సెస్ జర్నల్లను ప్రచురిస్తుంది , ఇందులో 50000 మంది ప్రముఖ వ్యక్తులు, ప్రఖ్యాత శాస్త్రవేత్తలు ఎడిటోరియల్ బోర్డ్ సభ్యులుగా ఉన్నారు.
ఎక్కువ మంది పాఠకులు మరియు అనులేఖనాలను పొందే ఓపెన్ యాక్సెస్ జర్నల్స్
700 జర్నల్స్ మరియు 15,000,000 రీడర్లు ప్రతి జర్నల్ 25,000+ రీడర్లను పొందుతున్నారు
Sarah Reemst
The COVID-19 epidemic has put the world's scientists to the test. The international community works to develop fresh ways as quickly as feasible for the diagnosis and treatment of COVID-19 patients [1]. Currently, a reverse transcription-polymerase chain reaction is a trustworthy tool for identifying infected patients [2]. The process is time- and money-consuming. Designing innovative methods is crucial as a result. In this study, we used X-ray pictures of the lungs to identify and diagnose COVID-19 patients using three deep learning-based approaches. We proposed two algorithms deep neural network (DNN) on the fractal characteristic of images and convolutional neural network approaches using the lung images directly for the diagnosis of the condition [3]. The classification of the results reveals that the proposed CNN architecture a new coronavirus disease first appeared in Wuhan, China, in December 2019, and it quickly spread over the world [4]. It has so far caused millions of confirmed illnesses and thousands of fatalities worldwide. Therefore, it is crucial to identify COVID-19 as soon as possible in order to stop its spread and lower its mortality [5]. Currently, reverse transcription polymerase chain reaction is the gold standard in the diagnosis of COVID-19 [6]. In this test, viral nucleic acid from sputum or a nasopharyngeal swab is found. This testing mechanism has a few drawbacks [7]. First off, this test requires particular materials that are not generally accessible. Additionally, this test takes a lot of time and has a poor true positive sensitivity rate [8]. DNNs may extract intelligence from the dataset, which results in superhuman performances in a variety of applications, thanks to the availability of enormous datasets and strong graphical processing units. Additionally, recent research has looked towards effective DNN architecture synthesis [9].