• Title/Summary/Keyword: sound of heart

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New Temporal Features for Cardiac Disorder Classification by Heart Sound (심음 기반의 심장질환 분류를 위한 새로운 시간영역 특징)

  • Kwak, Chul;Kwon, Oh-Wook
    • The Journal of the Acoustical Society of Korea
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    • v.29 no.2
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    • pp.133-140
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    • 2010
  • We improve the performance of cardiac disorder classification by adding new temporal features extracted from continuous heart sound signals. We add three kinds of novel temporal features to a conventional feature based on mel-frequency cepstral coefficients (MFCC): Heart sound envelope, murmur probabilities, and murmur amplitude variation. In cardiac disorder classification and detection experiments, we evaluate the contribution of the proposed features to classification accuracy and select proper temporal features using the sequential feature selection method. The selected features are shown to improve classification accuracy significantly and consistently for neural network-based pattern classifiers such as multi-layer perceptron (MLP), support vector machine (SVM), and extreme learning machine (ELM).

Detection of Main Components of Heart Sound Using Third Moment Characteristics of PCG Envelope (심음 포락선의 3차 모멘트를 이용한 심음의 주성분 검출)

  • Quan, Xing-Ri;Bae, Keun-Sung
    • Journal of the Korea Institute of Information and Communication Engineering
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    • v.17 no.12
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    • pp.3001-3008
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    • 2013
  • To diagnose the cardiac valve abnormalities using analysis of phonocardiogram, first of all, accurate detection of S1, S2 components is needed for heart sound segmentation. In this paper, a new method that uses the third moment characteristics of an envelope of the PCG is proposed for accurate detection of S1 and S2 components of the heart sound with cardiac murmurs. The envelope of the PCG is obtained from the short-time energy profile, and its third moment profile with slope information is used for accurate time gating of the S1, S2 components. Experimental results have shown that the proposed method is superior to the conventional second moment method for detection of S1 and S2 regions from the heart sound signals with cardiac murmurs.

An Electronic Auscultation System Design using a Polymer Based Adherent Differential Output Sensor (Polymer based adherent differential output sensor를 이용한 전자 청진 시스템 설계)

  • 한철규;고성택;최민주
    • Journal of the Institute of Convergence Signal Processing
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    • v.2 no.1
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    • pp.108-112
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    • 2001
  • Heart sound contains rich information regarding the dynamics of the heart and the auscultation has been a first choice of routine procedures for diagnosis of the heart. However, heart sounds captured using a conventional stethoscope are not often loud or clear enough for doctors to precisely classify their characteristics, especially, under the noisy environments of the hospital. A simple auscultation device that removed shortcomings of the conventional stethoscope was constructed in the study. The device employed a polymer based adherent differential output sensor which was on contact with skin through a coupling medium and appropriated electronic circuits for signal amplification and conditioning An ordinary headphone is taken to hear the captured heart sounds and the volume can be adjusted to hear well. It is also possible that the device sends the captured heart sound signals to a PC where the signals are further processed and viualized.

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An electronic auscultation system design using a polymer based adherent differential output sensor (Polymer based adherent differentil output sensor를 이용한 전자 청진 시스템 설계)

  • 한철규;고성택;최민주
    • Proceedings of the Korea Institute of Convergence Signal Processing
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    • 2000.08a
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    • pp.185-188
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    • 2000
  • Heart sound contains rich information regarding the dynamics of the heart and the auscultation has been a first choice of routine procedures for diagnosis of the heart. However, heart sounds captured using a conventional stethoscope are not often loud or clear enough for doctors to precisely classify their characteristics, especially, under the noisy environments of the hospital. A simple auscultation device that removed shortcomings of the conventional stethoscope was constructed in the study. The device employed a polymer based adherent differential output sensor which was on contact with skin through a coupling medium and appropriated electronic circuits for signal amplification and conditioning. An ordinary headphone is taken to hear the captured heart sounds and the volume can be adjusted to hear well. It is also possible that the device sends the captured heart sound signals to a PC where the signals are further processed and viualized.

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Development of Wearable Electro-Stethoscope Hardware System for the Ubiquitous Healthcare (유비쿼터스 헬스케어를 위한 무구속 전자청진 하드웨어 시스템 개발)

  • Kim, Dong-Jun
    • The Transactions of The Korean Institute of Electrical Engineers
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    • v.56 no.6
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    • pp.1139-1143
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    • 2007
  • For the possible application of monitoring or diagnosing heart sounds in an ubiquitous healthcare environment. a small and light electro-stethoscope that can be attached in human body should be exploited. With this aim, this study proposes a new style of electro-stethoscope device that is composed of four hardware modules in wearable style. For this ambulatory heart sound collecting device, the several tests must be performed to check portability and material capability for collecting heart sounds. It turned out to be that the multi-channel electro-stethoscope can detect heart sound signals well even if it is not pinpointed in the accurate stethoscope point on a heart. Consequently, our ambulatory electro-stethoscope hardware system can be applied to monitor or diagnose abnormal heart sounds in the ubiquitous healthcare system.

Cardiac Disorder Classification Using Heart Sounds Acquired by a Wireless Electronic Stethoscope (무선 전자청진 심음을 이용한 심장질환 분류)

  • Kwak, Chul;Lee, Yun-Kyung;Kwon, Oh-Wook
    • Proceedings of the KIEE Conference
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    • 2007.10a
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    • pp.101-102
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    • 2007
  • Heart diseases are critical and should be detected as soon as possible. A stethoscope is a simple device to find cardiac disorder but requires keen experiences in heart sounds. We evaluate a cardiac disorder classifier by using heart sounds recorded by a digital wireless stethoscope developed in this work. The classifier uses hidden Markov models with circular state transition to model the heart sounds. We train the classifier using two kinds of data: One recorded by using our stethoscope and the other sampled from a clean heart sound database. In classification experiments using 165 sound clips, the classifier shows the classification accuracy of 82% in classifying 6 cardiac disorder categories.

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A Study of Classification of Heart Murmurs using Shannon Entropy and Neural Network (샤논 엔트로피와 신경회로망을 이용한 심잡음 분류에 관한 연구)

  • Eum, Sang-Hee
    • Journal of the Institute of Convergence Signal Processing
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    • v.16 no.4
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    • pp.134-138
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    • 2015
  • Heart sound is used for a basic clinical examination to check for abnormalities in the lungs and heart that can be heard with a stethoscope or phonocardiography. In this paper, we try to find an easier and non-invasive method to diagnose heart diseases using neural network classifier. The classifier has been developed for one normal heart sound and five murmurs by using Shannon entropy and conjugate scaled back propagation algorithm. The experimental results showed that the classification is possible with 1.63185e-6 of classification error.

Development of an Amplifier for Electronic Stethoscope System and Heart Sound Analysis (전자청진 시스템을 위한 증폭기의 개발 및 심음 신호 분석)

  • Kim, Dong-Jun;Kang, Dong-Kee
    • The Transactions of the Korean Institute of Electrical Engineers D
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    • v.50 no.5
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    • pp.241-246
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    • 2001
  • The conventional stethoscope can not store its stethoscopic sounds. Therefor a doctor diagnoses a patient with instantaneous stethoscopic sounds at that time, and he can not remember the state of the patient's stethoscopic sounds on the next. This prevent accurate and objective diagnosis. If the electronic stethoscope, which can store the stethoscopic sound, is developed, the auscultation will be greatly improved. This study describes an amplifier for electronic stethoscope system that can extract heart sounds of fetus as well as adult and alow us hear and record the sounds. Using the developed stethoscopic amplifier, clean heart sounds of fetus and adult can be heard in noisy environment, such as a consultation room of a university hospital, a laboratory of a university. Surprisingly, the heart sound of a 22-week fetus was heard through the developed electronic stethoscope. Pitch detection experiments using the detected heart sounds showed that the signal represents distinct periodicity. It can be expected that the developed electronic stethoscope can substitute for conventional stethoscopes and if proper analysis method for the stethoscopic signal is developed, a good electronic stethoscope system can be produced.

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Physical Analysis of the Prosthetic Valve Sound (기계판막치환후의 판막음에 대한 연구)

  • 조범구
    • Journal of Chest Surgery
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    • v.22 no.4
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    • pp.589-593
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    • 1989
  • The frequency spectrum of the metallic closing sound and its loudness were measured by non invasive techniques in 66 patients. They had examined a total of 7 Carbomedics valve, 10 Duromedics valve, 11 St. Jude heart valve in mitral position and 8 Carbomedics, 10 Duromedics, 20 St. Jude heart valve prostheses functioning normally in aortic position. Statistical comparison of the loudness from sound produced by the three valves in each position, the following; The Carbomedics valve has the lowest average loudness, followed by the St. Jude medical valve, and finally the Edward Duromedics valve. And we analysis the changing factor of the loudness of valve sound, only the velocity of the flow through the valve influenced to the valve sound.

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Research on diagnostic property of heart sound using AR model (AR 모델을 이용한 심음의 진단적 특성에 관한 연구)

  • Kim, Hyoung-Suk;Beack, Sueng-Wha
    • Proceedings of the KIEE Conference
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    • 1998.07g
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    • pp.2486-2488
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    • 1998
  • In this paper, Prameters esimated t using AR model in order to approach linearly the heart sound which include the nonlinear characteristic from the characteristics based on a statistical theory. The parameters which is figured out using AR model is a very important information which show the characteristic heart sound In this paper parameters estimated using autocorrelation method and order selected by proposed Akaike[6] method. Compared the similirities of the spectrums between estimated by using AR model and estimated by using FFT method.

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