• Economic and Environmental Geology
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• v.50 no.2
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• pp.159-170
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• 2017

The temporal and spatial temperature distribution of the heat storage mortar made of porous feldspar was measured and the thermal properties and electricity consumption were analyzed. For the experiment, two real size chambers (control model and test model) with hot water pipes were constructed. Two large scale models with hot water pipes were constructed. The surface temperature change of the heat storage layer was remotely monitored during the heating and cooling process using infrared thermal imaging camera and temperature sensor. The temperature increased from $20^{\circ}C$ to $30^{\circ}C$ under the heating condition. The temperature of the heat storage layer of the test model was $2.0-3.5^{\circ}C$ higher than the control model and the time to reach the target temperature was shortened. As the distance from the hot water pipe increased, the temperature gap increased from $4.0^{\circ}C$ to $4.8^{\circ}C$. The power consumed until the surface temperature of the heat storage layer reached $30^{\circ}C$ was 2.2 times that of the control model. From the heating experiment, the stepwise temperature and electricity consumption were calculated, and the electricity consumption of the heat storage layer of the test model was reduced by 66%. In the cooling experiment, the surface temperature of the heat storage layer of the test model was maintained $2^{\circ}C$ higher than that of the control model. The heat storage effect of the porous feldspar mortar was confirmed by the temperature experiment. With considering that the time to reheat the heat storage layer is extended, the energy efficiency will be increased.

• Journal of Animal Environmental Science
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• v.15 no.2
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• pp.131-138
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• 2009

This study was conducted to find ways to control environment with the difference between body temperature and background temperature based on swine activity, and to apply to the environment control system of swine barns based on the findings. Following are the results. 1. Swine activity related to background temperature was achieved as color images and swine activity status was categorized into cold, comfortable, and hot periods with visualization system (thermal image system). 2. Thermal image system consisted of an infrared CCD camera, an image processing board - DIF (TH3100), an main computer (400Hz, 128M, 586 Pentium model) with C++ program installed. 3. Thermal image system categorizing temperatures into cold, comfortable, and hot was applicable to the environment control system of swine barns 4. Feed intake was higher in cold temperature, and finishing weight and weight gain per day in cold temperature were lower than others (p<0.05).

• Journal of the Korean Institute of Illuminating and Electrical Installation Engineers
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• v.23 no.10
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• pp.100-106
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• 2009

In this study, methods of overheat detection at the coupling or wire in electrical facility are investigated, operating characteristic about the optic temperature sensor for continuous on-line temperature monitoring in diagnostics system of electrical facility is analyzed. Heating sources in the experiment for operating characteristics of optic temperature sensor use black body and hot plate, output voltage of optic temperature sensor in accordance with temperature variation is analyzed. Overheat generation due to poor contact at the circuit breaker in panel board detects using a thermocouple, infrared thermal camera and optic temperature sensor, and experiment results are analyzed. The effect of optic temperature sensor is the same that of other methods. These results expect to use basic research material for adjusting field of electrical diagnostics system using RFID type optic temperature sensor in the near future.

• Asian Pacific Journal of Cancer Prevention
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• v.16 no.18
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• pp.8619-8623
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• 2016

Background: Breast cancer is a common disorder in women, constituting one of the main causes of death all over the world. The purpose of this study was to determine the diagnostic value of the breast tissue diseases by the help of thermography. Materials and Methods: In this paper, we applied non-contact infrared camera, INFREC R500 for evaluating the capabilities of thermography. The study was conducted on 60 patients suspected of breast disease, who were referred to Imam Khomeini Imaging Center. Information obtained from the questionnaires and clinical examinations along with the obtained diagnostic results from ultrasound images, biopsies and thermography, were analyzed. The results indicated that the use of thermography as well as the asymmetry technique is useful in identifying hypoechoic as well as cystic masses. It should be noted that the patient should not suffer from breast discharge. Results: The accuracy of asymmetry technique identification is respectively 91/89% and 92/30%. Also the accuracy of the exact location of identification is on the 61/53% and 75%. The approach also proved effective in identifying heterogeneous lesions, fibroadenomas, and intraductal masses, but not ISO-echoes and calcified masses. Conclusions: According to the results of the investigation, thermography may be useful in the initial screening and supplementation of diagnostic procedures due to its safety (its non-radiation properties), low cost and the good recognition of breast tissue disease.

• Fire Science and Engineering
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• v.22 no.4
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• pp.54-60
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• 2008

In this study, damage characteristics of MCCB and terminal block due to poor contact were analyzed, and various poor contact detection techniques were suggested. Firstly, the detection techniques using thermocouple and infrared thermal camera were analyzed respectively. Also, thermo-cap during poor contact detected abnormal status effectively by changing its color, and the detection system using an odor detector and odor capsules was analyzed. Lastly, poor contact detection screw was made using characteristics of fusible alloy, and we applied the poor contact detection screw to terminal block. The above methods could prevent electrical fire caused by poor contact effectively if they are used properly.

• Journal of the Korean Geotechnical Society
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• v.39 no.10
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• pp.41-48
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• 2023

The presence of abnormalities in the subgrade of roads poses safety risks to users and results in significant maintenance costs. In this study, we aimed to experimentally evaluate the temperature distributions in abnormal areas of subgrade materials using infrared cameras and analyze the data with machine learning techniques. The experimental site was configured as a cubic shape measuring 50 cm in width, length, and depth, with abnormal areas designated for water and air. Concrete blocks covered the upper part of the site to simulate the pavement layer. Temperature distribution was monitored over 23 h, from 4 PM to 3 PM the following day, resulting in image data and numerical temperature values extracted from the middle of the abnormal area. The temperature difference between the maximum and minimum values measured 34.8℃ for water, 34.2℃ for air, and 28.6℃ for the original subgrade. To classify conditions in the measured images, we employed the image analysis method of a convolutional neural network (CNN), utilizing ResNet-101 and SqueezeNet networks. The classification accuracies of ResNet-101 for water, air, and the original subgrade were 70%, 50%, and 80%, respectively. SqueezeNet achieved classification accuracies of 60% for water, 30% for air, and 70% for the original subgrade. This study highlights the effectiveness of CNN algorithms in analyzing subgrade properties and predicting subsurface conditions.

• Journal of Navigation and Port Research
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• v.40 no.3
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• pp.159-164
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• 2016

The goal of this study is to implement a communication system that can monitor the status of the nacelle using the power cable itself, without the dedicated communication lines such as an UTP cable and optical fiber for the offshore wind turbine. An inductive coupling powerline communication system for a MW class offshore wind turbine was proposed and its communication performance was demonstrated. The inductive couplers was designed for operation at up to 500 A using a ferrite composite materials. Field test was carried out on the wind farms of Jeju island. Using the iperf communication test program, we have obtained more than 15 Mbps data transmission rate through the 100 m power cable that was installed between the nacelle and the bottom of the power converter. In the data transmission stability test for a week, there was no failure ever. The minimum transmission rate was 15 Mbps and the average data rate was about 20 Mbps. Next, we have installed an infrared camera inside the nacelle in order to measure the temperature distribution and variation of the nacelle. The real-time thermal image taken by the camera was successfully sent to the monitoring system without error.

• Composites Research
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• v.24 no.4
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• pp.23-28
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• 2011

Recently CFRP laminate joints process by bolts and nets are developed rapidly in aircraft industries. However, there are serious drawback during jointing process. Many hole processes are needed for the manufacturing and structural applications using composite materials. Generally, very durable polycrystalline crystalline diamond (PCD) drill has been used for the CFRP hole process. However, due to the expensive price and slow process speed, chemical vapor deposition (CVD) diamond drill has been used increasingly which are relatively-low durability but easily-adjustable process speed via drill shape change and price is much lower. In this study, the comparison of hole process between PCD and CVD diamond coated drills was done. First of all, CFRP hole processbility was evaluated using the equations of hole processing conditions (feed amount per blade, feed speed). The comparison on thermal damage occurring from the CFRP specimen was also studied during drilling process. Empirical equation was made from the temperature photo profile being taken during hole process by infrared thermal camera. In addition, hole processability was compared by checking hole inside condition upon chip exhausting state for two drills. Generally, although the PCD can exhibit better hole processability, hole processing speed of CVD diamond drill exhibited faster than PCD case.

• Proceedings of the Korean Vacuum Society Conference
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• 2016.02a
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• pp.252-252
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• 2016

최근 학계나 산업계에서 indium tin oxide (ITO)의 높은 전기 전도도 및 광투과율을 이용하여 줄 발열을 기초로 하는 투명 면상 발열체에 대한 연구가 활발히 진행 되고 있다. 하지만 단일 ITO 박막으로 제작한 투명 면상 발열체는 온도가 상승함에 따라 균일하게 발열 되지 않으며, 글라스의 곡면 부분에서 유연성이 부족하여 크랙이 발생하는 다양한 문제점들을 가지고 있다. 이를 해결하기 위해 ITO의 결정화 온도 $160^{\circ}C$ 이상의 고온공정 또는 증착 후 열처리가 필요 하는 추가적인 공정이 필요하다. 따라서 본 연구에서는 단일 ITO 박막의 단점을 개선하는 ITO/Ag/ITO 하이브리드 구조의 투명 면상 발열체를 제작하여 전기적, 광학적 특성을 비교하고 발열량, 온도 균일성, 발열 유지 안정도를 조사하였다. 본 연구에서는 $50{\times}50mm$ 크기의 non-alkali glass (Corning E-2000) 기판 상에 마그네트론 스퍼터링 공정으로 상온에서 ITO/Ag/ITO 박막을 연속적으로 증착 하여 다층구조의 하이브리드 형 투명 면상 발열체를 제조하였다. 박막 증착 파워는 DC (Ag) power 100 W, RF (ITO) power 200 W로 하였으며 ITO박막두께는 40 nm로 고정 시키고 Ag박막 두께는 10 ~ 20 nm로 변화를 주었다. 증착원은 3인치 ITO 단일 타깃(SnO2, 10 wt.%)과 Ag 금속 타깃 (순도 99.99%)을 사용하였으며, 고순도 Ar을 이용하여 방전하였으며 총 주입량은 20 sccm, working pressure는 1.0 Pa을 유지하였다. 증착전 타깃 표면의 불순물 제거와 방전의 안정성을 유지하기 위해 10분간 pre-sputtering을 진행하고 증착하였다. 증착한 박막의 전기적, 광학적 특성은 각각 Hall-effect measurements system (ECOPIA, HMS3000), UV-Vis spectrophotometer (UV-1800, SHIMADZU)으로 측정하였으며, 하이브리드 표면의 구조 및 형상은 field emission-scanning electron microscopy (FE-SEM, Hitachi S-4800)으로 관찰하였다. 또한 투명 면상 발열체의 성능은 0.5 ~ 3 V/cm의 다양한 전압을 power supply (Keithly 2400, USA)를 통해서 시편 양 끝단에 인가한 후 시간에 따른 투명면상 발열체의 표면 온도변화를 infrared thermal imager (IR camera, Nikon)를 이용하여 관찰하였다. 하이브리드 구조를 가진 ITO박막의 두께는 40 nm로 고정 시키고 Ag박막의 두께는 10, 15, 20 nm로 변화를 주었다. 이들 박막의 면저항 값은 각각 5.3, 3.2, $2.1{\Omega}/{\Box}$였으며, 투과도는 각각 86.9, 81.7, 66.5 %였다. 이에 비해 두께 95 nm의 단일 ITO박막의 면저항 값은 $59.5{\Omega}/{\Box}$였으며, 투과도는 89.1 %였다. 하이브리드 구조의 전기적특성은 금속층의 두께가 증가할수록 캐리어 농도 값이 증가함에 따라 비저항 값이 감소되어 면저항 값도 감소된 것이며, 금속 삽입층의 전도특성이 비저항에 큰 영향을 주고 있음을 보여준다. 하지만 금속 층의 두께가 증가할수록 Ag층이 연속적인 막을 형성하여 반사율이 증가함에 따라 투과도가 감소하였다. 따라서 하이브리드 구조를 가진 투명 면상 발열체에 금속 삽입층의 두께 조절은 매우 중요한 인자임을 확인 할 수 있었다. 또한 발열성능을 평가 하기 위해 시편 양 끝단에 3 V전압을 인가한 결과, 금속 삽입층의 두께가 10 nm에서 5 nm씩 증가한 하이브리드 구조를 가진 투명면상 발열체의 최고 온도는 각각 98, 150, $167^{\circ}C$ 였으며, 단일 ITO의 최고 온도는 $32^{\circ}C$였다. 이 것은 동일한 두께 (95 nm)의 단일 ITO 박막과 비교하여 면저항이 낮은 하이브리드 박막의 발열량은 약 $120^{\circ}C$로 발열효율이 매우 우수한 것을 확인 할 수 있었다.

• Science of Emotion and Sensibility
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• v.15 no.1
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• pp.1-8
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• 2012

There have been many emotion researches to investigate physiological responses on specific emotions with physiological parameters such as heart rate, blood volume flow, and skin conductance. Very few researches, however, exists by detecting them with facial skin temperature. The purpose of present study was to observe the differences of facial skin temperature by using thermal camera, when participants stimulated by monitor scenes which could evoke fear or joy. There were totally 98 of participants; undergraduate students who were in their adult age and middle, high school students who were in their adolescence. We measured their facial temperature, before and after presenting emotional stimulus to see changes between both times. Temperature values were extracted in these regions; forehead, inner corners of the eyes, bridge of the nose, end of the nose, and cheeks. Temperature values in bridge and end of the nose were significantly decreased in fear emotion stimulated. There was also significant temperature increase in the area of forehead and the inner corners of the eyes, while the temperature value in end of the nose decreased. It showed decrease in both stimulated fear and joy. These results might be described as follows: When arousal level going up, sympathetic nervous activity increases, and in turn it makes blood flow in peripheral vessels under the nose decrease. Facial temperature changes by fear or joy in this study were the same as the previous studies which measured temperature of finger tip, when participants experiencing emotions. Our results may help to develop emotion-measuring techniques and establish computer system bases which are to detect human emotions.