TY - JOUR
T1 - A New Approach for Detection of Viral Respiratory Infections Using E-nose Through Sweat from Armpit with Fully Connected Deep Network
AU - Malikhah, Malikhah
AU - Sarno, Riyanarto
AU - Inoue, Sozo
AU - Ardani, M. Syauqi Hanif
AU - Purbawa, Doni Putra
AU - Sabilla, Shoffi Izza
AU - Sungkono, Kelly Rossa
AU - Fatichah, Chastine
AU - Sunaryono, Dwi
AU - Bakhtiar, Arief
AU - Libriansyah,
AU - Prakoeswa, Cita R.S.
AU - Tinduh, Damayanti
AU - Hernaningsih, Yetti
N1 - Publisher Copyright:
© 2022, International Journal of Intelligent Engineering and Systems.All Rights Reserved.
PY - 2022/4
Y1 - 2022/4
N2 - Viral respiratory infections are the most common diseases suffered by all age groups worldwide. The gold standard for diagnosing viral respiratory infection is through the molecular method, but this diagnosis is expensive, requires sophisticated equipment, can only be performed by well-trained medical staff, and is painful. Volatile Organic Compounds (VOCs) are compounds released from the human body that can be a marker of disease and based on numerous studies it also contains VOCs. An electronic nose (E-nose) is a device that can be used to identify disease. This study proposes a new approach for the detection of viral respiratory infections through sweat from the armpit using an E-nose consisting of 5 semiconductor gases and a single-board computer. Several statistical parameters are used to obtain features and the detection algorithm used is Fully Connected Deep Network (FCDN). Several sizes of hidden layers were tested to obtain the best FCDN model. This study also proposes the selection of the best FCDN model which is a trade-off between complexity and accuracy, so that the model stored in E-nose is a model that not only has good accuracy but is also not too complex. The experimental results show that using 29 statistical parameters and 2 hidden layers generate the highest accuracy of 0.940 for the detection of 2 classes, namely positive and negative, with sensitivity and specificity of 0.967 and 0.915,
AB - Viral respiratory infections are the most common diseases suffered by all age groups worldwide. The gold standard for diagnosing viral respiratory infection is through the molecular method, but this diagnosis is expensive, requires sophisticated equipment, can only be performed by well-trained medical staff, and is painful. Volatile Organic Compounds (VOCs) are compounds released from the human body that can be a marker of disease and based on numerous studies it also contains VOCs. An electronic nose (E-nose) is a device that can be used to identify disease. This study proposes a new approach for the detection of viral respiratory infections through sweat from the armpit using an E-nose consisting of 5 semiconductor gases and a single-board computer. Several statistical parameters are used to obtain features and the detection algorithm used is Fully Connected Deep Network (FCDN). Several sizes of hidden layers were tested to obtain the best FCDN model. This study also proposes the selection of the best FCDN model which is a trade-off between complexity and accuracy, so that the model stored in E-nose is a model that not only has good accuracy but is also not too complex. The experimental results show that using 29 statistical parameters and 2 hidden layers generate the highest accuracy of 0.940 for the detection of 2 classes, namely positive and negative, with sensitivity and specificity of 0.967 and 0.915,
KW - Armpit
KW - Deep learning
KW - Electronic nose
KW - Statistical parameters
KW - Sweat
KW - Viral respiratory infections
UR - http://www.scopus.com/inward/record.url?scp=85126771758&partnerID=8YFLogxK
U2 - 10.22266/ijies2022.0430.36
DO - 10.22266/ijies2022.0430.36
M3 - Article
AN - SCOPUS:85126771758
SN - 2185-310X
VL - 15
SP - 394
EP - 404
JO - International Journal of Intelligent Engineering and Systems
JF - International Journal of Intelligent Engineering and Systems
IS - 2
ER -