COVID-19: respiratory disease diagnosis with regularized deep convolutional neural network using human respiratory sounds

Abstract: Human respiratory sound auscultation (HRSA) parameters have been the real choice for detecting human respiratory diseases in the last few years. It is a challenging task to extract the respiratory sound features from the breath, voice, and cough sounds. The existing methods failed to extract the sound features to diagnose respiratory diseases. We proposed and evaluated a new regularized deep convolutional neural network (RDCNN) architecture to accept COVID-19 sound data and essential sound features. The propos… Show more

“…Future test development should concentrate on overcoming restrictions and enhancing the COVID-19 diagnostic techniques' accuracy, speed, and usability. Kranthi Kumar et al [29] In this paper, Deep CNN (with Max-Pooling) and Deep CNN (without Max-Pooling) are proposed models. KDD-data, ComParE2021-CCS-CSS Data, and NeurlPs2021-data are the datasets utilized in this.…”

A Systematic Review and Analysis on Deep Learning Techniques Used in Diagnosis of Covid-19

“…Future test development should concentrate on overcoming restrictions and enhancing the COVID-19 diagnostic techniques' accuracy, speed, and usability. Kranthi Kumar et al [29] In this paper, Deep CNN (with Max-Pooling) and Deep CNN (without Max-Pooling) are proposed models. KDD-data, ComParE2021-CCS-CSS Data, and NeurlPs2021-data are the datasets utilized in this.…”

A Systematic Review and Analysis on Deep Learning Techniques Used in Diagnosis of Covid-19

A deep CNN-based acoustic model for the identification of lung diseases utilizing extracted MFCC features from respiratory sounds

Real-Time Multi-Class Classification of Respiratory Diseases Through Dimensional Data Combinations