• Title/Summary/Keyword: $SpO_2$ measurement

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The development of module for measurement and wireless communication of SpO2/PPG signals (혈중산소포화도/맥파 신호 측정 및 무선 전송을 위한 모듈 개발)

  • Han, Young-Oh
    • The Journal of the Korea institute of electronic communication sciences
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    • v.6 no.6
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    • pp.981-986
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    • 2011
  • In this paper, the module for measuring SpO2 and PPG(Photo Plethysmo Graphy) signal of human body and the module for wireless communication of these bio-signals to PC were developed. The program was developed to display transmitted SpO2 and PPG signal by various type data and graph without information loss during a emergency transfer. This system can be utilized as appropriate for remote medical care and a new market is expected, to be created according to revision of medical law.

Development of ECS-NIBP-$SpO_2$ Patient Monitoring System (ECG-NIBP-$SpO_2$ 환자감시장치 개발)

  • Kim, N.H.;Shin, W.H.;Lee, G.K.;Ra, S.W.;Kim, G.H.
    • Proceedings of the KOSOMBE Conference
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    • v.1998 no.11
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    • pp.129-130
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    • 1998
  • In this paper, We designed the ECG-NIBP-$SpO_2$ patient monitor. This production can measure Electrocardiograph, Heart Rate, Noninvasive Blood Pressure, and Oxygen Saturation for Noninvasive Mehod and can display each information. These informations were implemented by the electrodes of ECG part, the cuff of NIBP module and the finger probe with light sensor of $SpO_2$ without injection of needle or catheter. In addition, We developed a new analysis algorithm and measurement technique for NIBP and $SpO_2$ to observe patient's conditions correctly.

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A Study of Simple Sleep Apnea Predictive Device Using SpO2 and Acceleration Sensor

  • Woo, Seong-In;Lee, Merry;Yeom, Hojun
    • International Journal of Internet, Broadcasting and Communication
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    • v.11 no.4
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    • pp.71-75
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    • 2019
  • Sleep apnea is a disease that causes various complications, and the polysomnography is expensive and difficult to measure. The purpose of this study is to develop an unrestricted wearable monitoring system so that patients can be examined in a familiar environment. We used a method to detect sleep apnea events and to determine sleep satisfaction by non-constrained method using SpO2 measurement sensor and 3-axis acceleration sensor. Heart rate and SpO2 were measured at the finger using max30100. After acquiring the SpO2 data of the user in real time, the apnea measurement algorithm was used to transmit the number of apnea events of the user to the mobile phone using Bluetooth (HC-06) on the wrist. Using the three-axis acceleration sensor (mpu6050) attached to the upper body, the number of times of tossing and turning during sleep was measured. Based on this data, this algorithm evaluates the patient's tossing and turning during sleep and transmits the data to the mobile phone via Bluetooth. The power source used 9 volts battery to operate Arduino UNO and sensors for portability and stability, and the data received from each sensor can be used to check the various degree between sleep apnea and sleep tossing and turning on the mobile phone. Through thisstudy, we have developed a wearable sleep apnea measurement system that can be easily used at home for the problem of low sleep efficiency of sleep apnea patients.

A Development of Pulse Oximeter module for Measurement of $SpO_2$ (산소포화도 측정을 위한 모듈형 펄스 옥시메터 개발)

  • 이한욱;이주원;이종회;조원래;이건기
    • Journal of the Korea Institute of Information and Communication Engineering
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    • v.4 no.3
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    • pp.575-583
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    • 2000
  • Pulse oximetry is a well established non-invasive optical technique for monitoring the $SpO_2$ during anaesthesia, recovery and intensive care. Pulse oximeters determine the oxygen saturation level of blood by measuring the light absorption of arterial blood. In the measurement of the hemoglobin oxygen saturation, conventional method has required the technique of filtering of remove the noise, and of complex signal processing algorithm. So much time have been required to signal processing. In this research, we separate AC signal and DC signal in the stage of signal detection. Therefore we simplify the calculation algorithm for $SpO_2$. The implemented system have the high performance such an accuracy and a processing time than the traditional method.

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Algorithm for reduction of motion artifact generated in SpO2 measurement (산소포화도(SpO2) 측정시에 발생되는 motion artifact를 reduction하는 algorithm)

  • 한승헌;김영길
    • Proceedings of the Korean Institute of Information and Commucation Sciences Conference
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    • 2003.10a
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    • pp.860-863
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    • 2003
  • Pulse oximetry has gained wide spread clinical acceptance in the latter part of the 21st century. The principle of pulse oximetry is based on the red and infrared light absorption features and uses a light emitter with red and infrared LEDs that shines through a reasonably translucent site with good blood flow. There are two methods of sending light through the measuring site : transmission and reflectance. After the transmitted red and infrared signals pass through the measuring site and received at the photodetector, the red/infrared ratio is calculated. But, pulse of oximeters are so sensitive that they may detect pulses when pressure is too low to provide adequate tissue blood flow, that is, SpO2 may decrease due to O2 consumption by the finger of the pulsing but stagnant arterial blood at low pressure or with vasoconstriction. This project has the limitations of pulse oximetry. Therefore, this paper is focused on the resuction of motion artifact that caused by moving when someone measures with SpO2 system.

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Comparison of rPPG-based Oxygen Saturation Measurement Performance by Face Area with Simple Signal Processing (신호 처리를 통한 비접촉 광용적맥파 기반 얼굴 영역별 산소포화도 추정 성능 비교)

  • Hyojin Jo;Nam Kyu Kwon
    • IEMEK Journal of Embedded Systems and Applications
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    • v.19 no.4
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    • pp.159-165
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    • 2024
  • This study evaluates the performance of remote photoplethysmography (rPPG)-based oxygen saturation (SpO2) estimation across different face areas. The information in the red and green channels is extracted through spatial averaging on the detected area, followed by detrending, min-max normalization, and low-pass filtering are performed. Finally, SpO2 is estimated using the Ratio of Ratios method based on Beer-Lambert law. Using the PURE dataset, SpO2 estimation accuracy was evaluated with mean absolute error (MAE). Experimental results showed the entire face provided the highest accuracy, followed by the forehead, left cheek, right cheek, and lips.

Design of Digital Safety-helmet for SpO2 Measurement (산소포화도 측정이 가능한 디지털 안전모 설계)

  • Lee, Min-hye;Jeong, Dong-myong;Shin, Seong-yoon;Jeon, Tae-il;Choi, Jae-seok;Jeong, Gi-soo
    • Proceedings of the Korean Institute of Information and Commucation Sciences Conference
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    • 2018.10a
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    • pp.163-165
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    • 2018
  • Most construction disasters are analyzed to be human factors such as not complying with the safety regulations of construction sites, not using clothing and protective equipment, safety insensitivity, and the health of workers. In order to prevent such a construction disaster, the project site management needs to check the health of workers, but it is difficult to check the condition of workers every hour. Therefore, this paper proposed the design of digital safety-helmet that can automatically identify health conditions by checking workers $SpO_2$ and pulse rates, away from simple protective features.

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A Wearable Watch-type Reflectance-based Blood-oxygen Saturation (SpO2) Level Estimation (반사광을 이용한 손목시계형 혈중산소포화도 (SpO2) 측정기)

  • Lee, Hooseok;Thap, Tharoeun;Lee, Jinseok
    • Annual Conference of KIPS
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    • 2015.10a
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    • pp.578-579
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    • 2015
  • Transmission and reflectance are two non-invasive techniques to perform pulse oximetry. This paper presents a design of reflectance-based pulse oximetry for watch-type wearable device, in which sensor and detector are located on the same surface of the body part. The basic principle of a pulse oximeter is based on the measurement of the red and infrared (IR) light absorption. Oxygenated blood has significant differences of light absorption characteristics than deoxygenated blood under red (660 nm) and infrared (940 nm) wavelength. Infrared is absorbed more by oxygenated hemoglobin than red. So the hardware implementation is included placing of the two LEDs (red and IR) with single photo-detector in the middle on the patient's wrist to get the corresponding pulsatile signals which are used to estimate the $SpO_2$.

Measurement of Blood Oxygen Saturation System and LavVIEW Program Using Broad-band Light Source (광대역 광원을 이용한 혈중 산소포화도의 측정 시스템 및 랩뷰 프로그램)

  • Cui, Jin Shi;Shin, Dong Ho;Song, Chul Gyu
    • Journal of Korea Multimedia Society
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    • v.18 no.2
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    • pp.128-137
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    • 2015
  • Blood oxygen saturation ($SpO_2$) is so important to be called bio-signal of the fifth. The measurement of blood oxygen saturation based on broad-ban light source has advantages of simple testing facility and easy understanding. This paper proposes a LabVIEW program which measures blood oxygen saturation based on broad-band light source. It combines LabVIEW and MATLAB, utilizing different light absorptions of oxyhemoglobin and deoxyhemoglobin in the visual wavelength range of 450nm-750nm to determine blood oxygen saturation. In order to improve accuracy through reducing the impact of hand shaking, the probe is fixed to the motor stage and then move a constant distance between the probe and the sample to be measured. Experimental results show that the proposed method noticeably increases the accuracy and saves time compared with the conventional methods.

Real-time Intelligent Health and Attention Monitoring System for Car Driver by Measurement of Vital Signal (생체신호 측정에 의한 실시간 지능형 운전자 건강 및 주의 모니터링 시스템)

  • Shin, Heung-Sub;Jung, Sang-Joong;Seo, Yong-Su;Chung, Wan-Young
    • Proceedings of the Korean Institute of Information and Commucation Sciences Conference
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    • 2009.10a
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    • pp.545-548
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    • 2009
  • Recently, researches related to automative mechanism have been widely studied to increase the driver's safety by continuously monitoring the driver's health condition to prevent driver's drowsiness. This paper describes the design of wearable chest belt for ECG and reflectance pulse oximetry for $SpO_2$ sensors based on wireless sensor network to monitor the driver's healthcare status. ECG, $SpO_2$ and heart rate signals can be transmitted via wireless sensor node to base station connected to the server. Intelligent monitoring system is designed at the server to analyze the $SpO_2$ and ECG signals. HRV(Heart Rate Variability) signals can be obtained by processing the ECG and PPG signals. HRV signals are further analyzed based on time and frequency domain to determine the driver's drowsiness status.

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