Design and development of hybrid optimization enabled deep learning model for COVID-19 detection with comparative analysis with DCNN, BIAT-GRU, XGBoost

The recent investigation has started for evaluating the human respiratory sounds, like voice recorded, cough, and breathing from hospital confirmed Covid-19 tools, which differs from healthy person's sound. The cough-based detection of Covid-19 also considered with non-respiratory and respirato...

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Published in:Computers in biology and medicine 2022-11, Vol.150, p.106123, Article 106123
Main Authors: Dar, Jawad Ahmad, Srivastava, Kamal Kr, Ahmed Lone, Sajaad
Format: Article
Language:English
Subjects:
(SARS-CoV-2) Covid-19 detection
Algorithms
Animals
Artificial intelligence
Biomarkers
Centroids
Comparative analysis
Coronaviruses
Cough
COVID-19
COVID-19 - diagnosis
Deep Learning
Design optimization
Feature extraction
Fuzzy
Humans
Hybrid optimization
Machine learning
Mel frequency cepstral coefficients
Mellivora capensis
Mustelidae
Neural network
Neural networks
Respiratory diseases
Respiratory Sounds
SARS-CoV-2
Sensitivity analysis
Severe acute respiratory syndrome coronavirus 2
Spectral centroid
Spectral flatness
Viral diseases
Viruses
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Summary:The recent investigation has started for evaluating the human respiratory sounds, like voice recorded, cough, and breathing from hospital confirmed Covid-19 tools, which differs from healthy person's sound. The cough-based detection of Covid-19 also considered with non-respiratory and respiratory sounds data related with all declared situations. Covid-19 is respiratory disease, which is usually produced by Severe Acute Respiratory Syndrome Coronavirus-2 (SARS-CoV-2). However, it is more indispensable to detect the positive cases for reducing further spread of virus, and former treatment of affected patients. With constant rise in the COVID-19 cases, there has been a constant rise in the need of efficient and safe ways to detect an infected individual. With the cases multiplying constantly, the current detecting devices like RT-PCR and fast testing kits have become short in supply. An effectual Covid-19 detection model using devised hybrid Honey Badger Optimization-based Deep Neuro Fuzzy Network (HBO-DNFN) is developed in this paper. Here, the audio signal is considered as input for detecting Covid-19. The gaussian filter is applied to input signal for removing the noises and then feature extraction is performed. The substantial features, like spectral roll-off, spectral bandwidth, Mel frequency cepstral coefficients (MFCC), spectral flatness, zero crossing rate, spectral centroid, mean square energy and spectral contract are extracted for further processing. Finally, DNFN is applied for detecting Covid-19 and the deep leaning model is trained by designed hybrid HBO algorithm. Accordingly, the developed Hybrid HBO method is newly designed by incorporating Honey Badger optimization Algorithm (HBA) and Jaya algorithm. The performance of developed Covid-19 detection model is evaluated using three metrics, like testing accuracy, sensitivity and specificity. The developed Hybrid HBO-based DNFN is outpaced than other existing approaches in terms of testing accuracy, sensitivity and specificity of “0.9176, 0.9218 and 0. 9219”. All the test results are validated with the k-fold cross validation method in order to make an assessment of the generalizability of these results. When k-fold value is 9, sensitivity of existing techniques and developed JHBO-based DNFN is 0.8982, 0.8816, 0.8938, and 0.9207. The sensitivity of developed approach is improved by means of gaussian filtering model. The specificity of DCNN is 0.9125, BI-AT-GRU is 0.8926, and XGBoost is 0.9014, wh
ISSN:0010-4825
1879-0534
1879-0534
DOI:10.1016/j.compbiomed.2022.106123