Objective: Infrared Tympanic Thermometer(ITT) is one of the most useful instruments for accurately measuring temperature. The effects of ear pathologies on ITT measurement remain unclear. The purpose of this study is ...Objective: Infrared Tympanic Thermometer(ITT) is one of the most useful instruments for accurately measuring temperature. The effects of ear pathologies on ITT measurement remain unclear. The purpose of this study is to determine if tympanic membrane perforation(TMP) affects ITT measurements in adult patients.Material and methods: A total of 90 adult patients with monaural central TMP were enrolled in this study.Patients were categorized into three subgroups according to perforation size(1-3 mm, 4-7 mm, and 8-10 mm).The tympanic temperatures of the affected and unaffected sites, and subgroups were compared with each other.Results: This study contained 54(60%) males and 36(40%) females ranging from 20 to 58 years of age(mean age: 30.74 ± 9.61 years). The mean tympanic temperature of the side affected with TMP was 36.34 oC ± 0.61 oC.The mean tympanic temperature of the unaffected side with healthy and intact tympanic membrane was 36.33 oC ± 0.6 oC. The Pearson correlation score for the tympanic temperatures and the size of TMP was 0.22 which was not significant(r=-0.12).Conclusion: TMP and perforation size do not affect ITT measurements in adult patients.展开更多
Detection of weld defects using real-time monitoring and controlling algorithm is of the significant task in manufacturing industries due to the increased production and liability costs that result when weld defects a...Detection of weld defects using real-time monitoring and controlling algorithm is of the significant task in manufacturing industries due to the increased production and liability costs that result when weld defects are not identified early in the production cycle.Monitoring and controlling for robotic arc welding process employed should be reliable,flexible and cost-effective in non-clean,high-volume production environments.Also,the robotic welding system has been utilized a complex jigging and mechanical devices to move the workpiece which related to the stationary welding head for getting higher efficiency and lower costs.To develop the fully robotic welding system,people make use of their senses of sound and/or sight to collect welding information,and take the necessary corrective measurements to ensure the weld quality after processing is satisfactory.Therefore,it is really required that the monitoring and controlling algorithm of sensors for increasing effectiveness in the robotic welding process has been developed.In this paper,bead-on-plate welding using an infrared thermography in the robotic GMA(Gas Metal Arc)welding process has been performed to study the effects of welding parameters on thermal profile characteristics and find the optimal offset distance which applied for monitoring and controlling of welding quality such as bead height.The analysis for correlation between temperature distributions at three offset distance and bead height which based on the regression analysis such as Standard Error of Estimate(SEE),the coefficient of correlation(R)and coefficient of determination(R2)and(Predictive Ability of Model)has been done.The infra-red sensor is useful for monitoring the isotherm radii that arise during the robotic welding process and identifying bead height as welding quality.展开更多
Non-contact sensing can be a rapid and convenient alternative for determining structure response compared to conventional instrumentation.Computer vision has been broadly implemented to enable accurate non-contact dyn...Non-contact sensing can be a rapid and convenient alternative for determining structure response compared to conventional instrumentation.Computer vision has been broadly implemented to enable accurate non-contact dynamic response measurements for structures.This study has analyzed the effect of non-contact sensors,including type,frame rate,and data collection platform,on the performance of a novel motion detection technique.Video recordings of a cantilever column were collected using a high-speed camera mounted on a tripod and an unmanned aerial system(UAS)equipped with visual and thermal sensors.The test specimen was subjected to an initial deformation and released.Specimen acceleration data were collected using an accelerometer installed on the cantilever end.The displacement from each non-contact sensor and the acceleration from the contact sensor were analyzed to measure the specimen′s natural frequency and damping ratio.The specimen′s first fundamental frequency and damping ratio results were validated by analyzing acceleration data from the top of the specimen and a finite element model.展开更多
The outbreak of the novel coronavirus pneumonia has had a great impact on the life safety of our people and social production activities.Therefore,it is very important and meaningful to analyze the application value o...The outbreak of the novel coronavirus pneumonia has had a great impact on the life safety of our people and social production activities.Therefore,it is very important and meaningful to analyze the application value of infrared forehead thermometers in body temperature screening under the new crown pneumonia epidemic and propose improved measures for body temperature detection.This paper summarizes the questionnaire on the application value of infrared forehead thermometer in body temperature screening and the results of staff interviews,and analyzes the principle of infrared forehead thermometer temperature measurement to explain the factors that affect the accuracy of temperature measurement results.Finally,it is concluded that the reflected radiation of the environment and the temperature measurement distance affect the accuracy of the temperature measurement results of the infrared forehead gun.展开更多
Objective To evaluate the reproducibility of ThermoscanTM, an inf rared emission detection ear thermometer, and to establish the normal reference range of ear temperature in Chinese neonates Methods Neonates were r...Objective To evaluate the reproducibility of ThermoscanTM, an inf rared emission detection ear thermometer, and to establish the normal reference range of ear temperature in Chinese neonates Methods Neonates were recruited from the inpatients population with e xclusion of those suffering from infections Results Fortynine neonates were recruited with 1?115 temperature tak in g sessions Mean left ear temperature was 3664035 Mean right ear te mper ature was 3664037 Clinical repeatability for left and right ear was 017 and 017, respectively Conclusion Thermoscan produced reproducible results in Chinese neonates The normal range of ear temperature for Chinese neonates is 35 to 37 Ea r temperature >378 should be regarded as fever展开更多
仪表信号采集是生产过程控制中的重要环节,通过红外测温仪、可编程逻辑控制器(Programmable Logic Controller,PLC)和视窗控制中心(Windows Control Center,WinCC)相结合形成测温控制系统。将此系统应用于圆钢加热过程,能够快速、准确...仪表信号采集是生产过程控制中的重要环节,通过红外测温仪、可编程逻辑控制器(Programmable Logic Controller,PLC)和视窗控制中心(Windows Control Center,WinCC)相结合形成测温控制系统。将此系统应用于圆钢加热过程,能够快速、准确且可靠地监测钢材表面温度,使工人能够及时发现并解决问题,在提高工作效率的同时保证产品质量。展开更多
文摘Objective: Infrared Tympanic Thermometer(ITT) is one of the most useful instruments for accurately measuring temperature. The effects of ear pathologies on ITT measurement remain unclear. The purpose of this study is to determine if tympanic membrane perforation(TMP) affects ITT measurements in adult patients.Material and methods: A total of 90 adult patients with monaural central TMP were enrolled in this study.Patients were categorized into three subgroups according to perforation size(1-3 mm, 4-7 mm, and 8-10 mm).The tympanic temperatures of the affected and unaffected sites, and subgroups were compared with each other.Results: This study contained 54(60%) males and 36(40%) females ranging from 20 to 58 years of age(mean age: 30.74 ± 9.61 years). The mean tympanic temperature of the side affected with TMP was 36.34 oC ± 0.61 oC.The mean tympanic temperature of the unaffected side with healthy and intact tympanic membrane was 36.33 oC ± 0.6 oC. The Pearson correlation score for the tympanic temperatures and the size of TMP was 0.22 which was not significant(r=-0.12).Conclusion: TMP and perforation size do not affect ITT measurements in adult patients.
文摘Detection of weld defects using real-time monitoring and controlling algorithm is of the significant task in manufacturing industries due to the increased production and liability costs that result when weld defects are not identified early in the production cycle.Monitoring and controlling for robotic arc welding process employed should be reliable,flexible and cost-effective in non-clean,high-volume production environments.Also,the robotic welding system has been utilized a complex jigging and mechanical devices to move the workpiece which related to the stationary welding head for getting higher efficiency and lower costs.To develop the fully robotic welding system,people make use of their senses of sound and/or sight to collect welding information,and take the necessary corrective measurements to ensure the weld quality after processing is satisfactory.Therefore,it is really required that the monitoring and controlling algorithm of sensors for increasing effectiveness in the robotic welding process has been developed.In this paper,bead-on-plate welding using an infrared thermography in the robotic GMA(Gas Metal Arc)welding process has been performed to study the effects of welding parameters on thermal profile characteristics and find the optimal offset distance which applied for monitoring and controlling of welding quality such as bead height.The analysis for correlation between temperature distributions at three offset distance and bead height which based on the regression analysis such as Standard Error of Estimate(SEE),the coefficient of correlation(R)and coefficient of determination(R2)and(Predictive Ability of Model)has been done.The infra-red sensor is useful for monitoring the isotherm radii that arise during the robotic welding process and identifying bead height as welding quality.
文摘Non-contact sensing can be a rapid and convenient alternative for determining structure response compared to conventional instrumentation.Computer vision has been broadly implemented to enable accurate non-contact dynamic response measurements for structures.This study has analyzed the effect of non-contact sensors,including type,frame rate,and data collection platform,on the performance of a novel motion detection technique.Video recordings of a cantilever column were collected using a high-speed camera mounted on a tripod and an unmanned aerial system(UAS)equipped with visual and thermal sensors.The test specimen was subjected to an initial deformation and released.Specimen acceleration data were collected using an accelerometer installed on the cantilever end.The displacement from each non-contact sensor and the acceleration from the contact sensor were analyzed to measure the specimen′s natural frequency and damping ratio.The specimen′s first fundamental frequency and damping ratio results were validated by analyzing acceleration data from the top of the specimen and a finite element model.
文摘The outbreak of the novel coronavirus pneumonia has had a great impact on the life safety of our people and social production activities.Therefore,it is very important and meaningful to analyze the application value of infrared forehead thermometers in body temperature screening under the new crown pneumonia epidemic and propose improved measures for body temperature detection.This paper summarizes the questionnaire on the application value of infrared forehead thermometer in body temperature screening and the results of staff interviews,and analyzes the principle of infrared forehead thermometer temperature measurement to explain the factors that affect the accuracy of temperature measurement results.Finally,it is concluded that the reflected radiation of the environment and the temperature measurement distance affect the accuracy of the temperature measurement results of the infrared forehead gun.
文摘Objective To evaluate the reproducibility of ThermoscanTM, an inf rared emission detection ear thermometer, and to establish the normal reference range of ear temperature in Chinese neonates Methods Neonates were recruited from the inpatients population with e xclusion of those suffering from infections Results Fortynine neonates were recruited with 1?115 temperature tak in g sessions Mean left ear temperature was 3664035 Mean right ear te mper ature was 3664037 Clinical repeatability for left and right ear was 017 and 017, respectively Conclusion Thermoscan produced reproducible results in Chinese neonates The normal range of ear temperature for Chinese neonates is 35 to 37 Ea r temperature >378 should be regarded as fever
文摘仪表信号采集是生产过程控制中的重要环节,通过红外测温仪、可编程逻辑控制器(Programmable Logic Controller,PLC)和视窗控制中心(Windows Control Center,WinCC)相结合形成测温控制系统。将此系统应用于圆钢加热过程,能够快速、准确且可靠地监测钢材表面温度,使工人能够及时发现并解决问题,在提高工作效率的同时保证产品质量。
