Orthogonality-Constrained CNMF-Based Noise Reduction with Reduced Degradation of Biological Sound

The number of deaths due to cardiovascular and respiratory diseases is increasing annually. Cardiovascular diseases with high mortality rates, such as strokes, are frequently caused by atrial fibrillation without subjective symptoms. Chronic obstructive pulmonary disease is another condition in whic...

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Published inSensors (Basel, Switzerland) Vol. 21; no. 23; p. 7981
Main Authors Murakami, Naoto, Nakashima, Shota, Fujimoto, Katsuma, Makihira, Shoya, Nishifuji, Seiji, Doi, Keiko, Li, Xianghong, Hirano, Tsunahiko, Matsunaga, Kazuto
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 29.11.2021
MDPI
Subjects
Acoustics
Angina pectoris
Automation
biological sound
biomedical signal processing
Cardiac arrhythmia
Chronic obstructive pulmonary disease
Methods
Microphones
Noise
noise reduction
respiratory sound
Sensors
Signal processing
Sound
vascular sound
Wearable computers
wearable device
Japan
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Abstract The number of deaths due to cardiovascular and respiratory diseases is increasing annually. Cardiovascular diseases with high mortality rates, such as strokes, are frequently caused by atrial fibrillation without subjective symptoms. Chronic obstructive pulmonary disease is another condition in which early detection is difficult owing to the slow progression of the disease. Hence, a device that enables the early diagnosis of both diseases is necessary. In our previous study, a sensor for monitoring biological sounds such as vascular and respiratory sounds was developed and a noise reduction method based on semi-supervised convolutive non-negative matrix factorization (SCNMF) was proposed for the noisy environments of users. However, SCNMF attenuated part of the biological sound in addition to the noise. Therefore, this paper proposes a novel noise reduction method that achieves less distortion by imposing orthogonality constraints on the SCNMF. The effectiveness of the proposed method was verified experimentally using the biological sounds of 21 subjects. The experimental results showed an average improvement of 1.4 dB in the signal-to-noise ratio and 2.1 dB in the signal-to-distortion ratio over the conventional method. These results demonstrate the capability of the proposed approach to measure biological sounds even in noisy environments.
AbstractList The number of deaths due to cardiovascular and respiratory diseases is increasing annually. Cardiovascular diseases with high mortality rates, such as strokes, are frequently caused by atrial fibrillation without subjective symptoms. Chronic obstructive pulmonary disease is another condition in which early detection is difficult owing to the slow progression of the disease. Hence, a device that enables the early diagnosis of both diseases is necessary. In our previous study, a sensor for monitoring biological sounds such as vascular and respiratory sounds was developed and a noise reduction method based on semi-supervised convolutive non-negative matrix factorization (SCNMF) was proposed for the noisy environments of users. However, SCNMF attenuated part of the biological sound in addition to the noise. Therefore, this paper proposes a novel noise reduction method that achieves less distortion by imposing orthogonality constraints on the SCNMF. The effectiveness of the proposed method was verified experimentally using the biological sounds of 21 subjects. The experimental results showed an average improvement of 1.4 dB in the signal-to-noise ratio and 2.1 dB in the signal-to-distortion ratio over the conventional method. These results demonstrate the capability of the proposed approach to measure biological sounds even in noisy environments.
The number of deaths due to cardiovascular and respiratory diseases is increasing annually. Cardiovascular diseases with high mortality rates, such as strokes, are frequently caused by atrial fibrillation without subjective symptoms. Chronic obstructive pulmonary disease is another condition in which early detection is difficult owing to the slow progression of the disease. Hence, a device that enables the early diagnosis of both diseases is necessary. In our previous study, a sensor for monitoring biological sounds such as vascular and respiratory sounds was developed and a noise reduction method based on semi-supervised convolutive non-negative matrix factorization (SCNMF) was proposed for the noisy environments of users. However, SCNMF attenuated part of the biological sound in addition to the noise. Therefore, this paper proposes a novel noise reduction method that achieves less distortion by imposing orthogonality constraints on the SCNMF. The effectiveness of the proposed method was verified experimentally using the biological sounds of 21 subjects. The experimental results showed an average improvement of 1.4 dB in the signal-to-noise ratio and 2.1 dB in the signal-to-distortion ratio over the conventional method. These results demonstrate the capability of the proposed approach to measure biological sounds even in noisy environments.The number of deaths due to cardiovascular and respiratory diseases is increasing annually. Cardiovascular diseases with high mortality rates, such as strokes, are frequently caused by atrial fibrillation without subjective symptoms. Chronic obstructive pulmonary disease is another condition in which early detection is difficult owing to the slow progression of the disease. Hence, a device that enables the early diagnosis of both diseases is necessary. In our previous study, a sensor for monitoring biological sounds such as vascular and respiratory sounds was developed and a noise reduction method based on semi-supervised convolutive non-negative matrix factorization (SCNMF) was proposed for the noisy environments of users. However, SCNMF attenuated part of the biological sound in addition to the noise. Therefore, this paper proposes a novel noise reduction method that achieves less distortion by imposing orthogonality constraints on the SCNMF. The effectiveness of the proposed method was verified experimentally using the biological sounds of 21 subjects. The experimental results showed an average improvement of 1.4 dB in the signal-to-noise ratio and 2.1 dB in the signal-to-distortion ratio over the conventional method. These results demonstrate the capability of the proposed approach to measure biological sounds even in noisy environments.
Author Makihira, Shoya
Hirano, Tsunahiko
Nishifuji, Seiji
Matsunaga, Kazuto
Fujimoto, Katsuma
Doi, Keiko
Li, Xianghong
Nakashima, Shota
Murakami, Naoto
AuthorAffiliation 1 Division of Electrical and Electronic Engineering, Graduate School of Sciences and Technology for Innovation, Yamaguchi University, 2-16-1, Tokiwadai, Ube 755-8611, Japan; a052vgu@yamaguchi-u.ac.jp (N.M.); i070fe@yamaguchi-u.ac.jp (K.F.); b048vgv@yamaguchi-u.ac.jp (S.M.); nisifuji@yamaguchi-u.ac.jp (S.N.)
2 Department of Respiratory Medicine and Infectious Disease, Graduate School of Medicine, Yamaguchi University, 1-1-1, Minamikogushi, Ube 755-8505, Japan; decem119@yamaguchi-u.ac.jp (K.D.); lixh@yamaguchi-u.ac.jp (X.L.); tsuna@yamaguchi-u.ac.jp (T.H.); kazmatsu@yamaguchi-u.ac.jp (K.M.)
AuthorAffiliation_xml – name: 2 Department of Respiratory Medicine and Infectious Disease, Graduate School of Medicine, Yamaguchi University, 1-1-1, Minamikogushi, Ube 755-8505, Japan; decem119@yamaguchi-u.ac.jp (K.D.); lixh@yamaguchi-u.ac.jp (X.L.); tsuna@yamaguchi-u.ac.jp (T.H.); kazmatsu@yamaguchi-u.ac.jp (K.M.)
– name: 1 Division of Electrical and Electronic Engineering, Graduate School of Sciences and Technology for Innovation, Yamaguchi University, 2-16-1, Tokiwadai, Ube 755-8611, Japan; a052vgu@yamaguchi-u.ac.jp (N.M.); i070fe@yamaguchi-u.ac.jp (K.F.); b048vgv@yamaguchi-u.ac.jp (S.M.); nisifuji@yamaguchi-u.ac.jp (S.N.)
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SubjectTerms Acoustics
Angina pectoris
Automation
biological sound
biomedical signal processing
Cardiac arrhythmia
Chronic obstructive pulmonary disease
Methods
Microphones
Noise
noise reduction
respiratory sound
Sensors
Signal processing
Sound
vascular sound
Wearable computers
wearable device
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Title Orthogonality-Constrained CNMF-Based Noise Reduction with Reduced Degradation of Biological Sound
URI https://www.proquest.com/docview/2608138236
https://www.proquest.com/docview/2608537039
https://pubmed.ncbi.nlm.nih.gov/PMC8659502
https://doaj.org/article/00ca8122724b44f9b1d076ed70e498c5
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