외부 환경 변화에 의한 비 접촉 체온계의 오차 범위 측정
Purpose : A person infected by SARS-CoV2 may present various symptoms such as fever, pain in lower respiratory tract, and pneumonia. Measuring body temperature is a simple method to screen patients. However, changes in the surrounding environment may cause errors in infrared measurement. Hence, a no...
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| Published in | Journal of the Korean Society of Integrative Medicine Vol. 8; no. 4; pp. 307 - 321 |
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| Main Authors | , , , , , |
| Format | Journal Article |
| Language | Korean |
| Published |
대한통합의학회
01.12.2020
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| Subjects | |
| Online Access | Get full text |
| ISSN | 2288-1174 2383-9651 |
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| Abstract | Purpose : A person infected by SARS-CoV2 may present various symptoms such as fever, pain in lower respiratory tract, and pneumonia. Measuring body temperature is a simple method to screen patients. However, changes in the surrounding environment may cause errors in infrared measurement. Hence, a non-contact thermometer controls this error by setting a correction value, but it is difficult to correct it for all environments. Therefore, we investigate device error values according to changes in the surrounding environment (temperature and humidity) and propose guidelines for reliable patient detection. Methods : For this study, the temperature was measured using three types of non-contact thermometers. For accurate temperature measurement, we used a water bath kept at a constant temperature. During temperature measurement, we ensured that the temperature and humidity were maintained using a thermo-hygrometer. The conditions of the surrounding environment were changed by an air conditioner, humidifier, warmer, and dehumidifier. Results : The temperature of the water bath was measured using a non-contact thermometer kept at various distances ranging from 3~10 cm. The value measured by the non-contact thermometer was then verified using a mercury thermometer, and the difference between the measured temperatures was compared. It was observed that at normal surrounding temperature (24 ℃), there was no difference between the values when the non-contact thermometer was kept at 3 cm. However, as the distance of the non-contact thermometer was increased from the water bath, the recorded temperature was significantly different compared with that of mercury thermometer. Moreover, temperature measurements were conducted at different surrounding temperatures and the results obtained significantly varied from when the thermometer was kept at 3 cm. Additionally, it was observed that the effect on temperature decreases with an increase in humidity Conclusion : In conclusion, non-contact thermometers are lower in lower temperature and dry weather in winter. |
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| AbstractList | Purpose : A person infected by SARS-CoV2 may present various symptoms such as fever, pain in lower respiratory tract, and pneumonia. Measuring body temperature is a simple method to screen patients. However, changes in the surrounding environment may cause errors in infrared measurement. Hence, a non-contact thermometer controls this error by setting a correction value, but it is difficult to correct it for all environments. Therefore, we investigate device error values according to changes in the surrounding environment (temperature and humidity) and propose guidelines for reliable patient detection. Methods : For this study, the temperature was measured using three types of non-contact thermometers. For accurate temperature measurement, we used a water bath kept at a constant temperature. During temperature measurement, we ensured that the temperature and humidity were maintained using a thermo-hygrometer. The conditions of the surrounding environment were changed by an air conditioner, humidifier, warmer, and dehumidifier. Results : The temperature of the water bath was measured using a non-contact thermometer kept at various distances ranging from 3~10 cm. The value measured by the non-contact thermometer was then verified using a mercury thermometer, and the difference between the measured temperatures was compared. It was observed that at normal surrounding temperature (24 ℃), there was no difference between the values when the non-contact thermometer was kept at 3 cm. However, as the distance of the non-contact thermometer was increased from the water bath, the recorded temperature was significantly different compared with that of mercury thermometer. Moreover, temperature measurements were conducted at different surrounding temperatures and the results obtained significantly varied from when the thermometer was kept at 3 cm. Additionally, it was observed that the effect on temperature decreases with an increase in humidity Conclusion : In conclusion, non-contact thermometers are lower in lower temperature and dry weather in winter. Purpose : When we infected by corona virus, there has several symptoms, such as fever, lower respiratory tract pain, and pneumonia. Measuring body temperature is a simple method to select patients, and non-contact thermometers are widely used during body temperature measurement. Infected patients are selected based on the temperature below 37.5 ℃, which is the normal temperature range. However, changes in the surrounding environment cause errors in infrared measurement. In order to control the this error, the non-contact thermometer sets a correction value, but it is difficult to correct it for all environments. Therefore, we investigate device error values according to changes in the surrounding environment (temperature and humidity) and propose guidelines for stable patient selection. Methods : For this study, the temperature was measured using three types of non-contact thermometers. For accurate temperature measurement, we used a constant temperature water bath. When temperature measuring, we checked whether the temperature and humidity were maintained using a thermo-hygrometer. The surrounding environment was changed by an air conditioner, humidifier, warmer and dehumidifier. Results : we measured temperature to various distance. According to the guidelines, the non-contact thermometers use 2 to 3 cm distance. We measured a mercury thermometer, and then non-contact thermometers measured at 3 cm, 5 cm, 7 cm, and 10 cm. At a normal surrounding temperature of 24 ℃, there was no difference at 3 cm, but at a distance greater than that, the temperature lower. Next, we measured another surrounding temperature (above 0 or 40 ℃), the temperature was significantly different from 3 cm. In addition, in the humidity change, the higher the humidity, the less the effect on temperature, and it was found that more temperature errors occur in a dry environment with low humidity. Conclusion : In conclusion, it seems that more temperature error occurs in dry weather in winter, if it check the body temperature above 35.5 ℃ in winter, it will be necessary to confirm in the circulatory screening process. KCI Citation Count: 0 |
| Author | 최혜경 박상웅 Choi, Heakyung 김정은 Kim, Jeongeun Park, Sangwoong |
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| Snippet | Purpose : A person infected by SARS-CoV2 may present various symptoms such as fever, pain in lower respiratory tract, and pneumonia. Measuring body temperature... Purpose : When we infected by corona virus, there has several symptoms, such as fever, lower respiratory tract pain, and pneumonia. Measuring body temperature... |
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| Title | 외부 환경 변화에 의한 비 접촉 체온계의 오차 범위 측정 |
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