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DEVELOPMENT OF INFRARED THERMOGRAPHY DETECTION PROGRAM MEASURE MUSCLE SORENESS AFTER EXERCISE IN THAI YOUTH |
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| รหัสดีโอไอ | |
| Creator | Sakchai SRISUK |
| Title | DEVELOPMENT OF INFRARED THERMOGRAPHY DETECTION PROGRAM MEASURE MUSCLE SORENESS AFTER EXERCISE IN THAI YOUTH |
| Contributor | Witthaya BOONSUK, Saravut RACHAMANEE |
| Publisher | The Sports Science Society of Thailand (SSST) |
| Publication Year | 2566 |
| Journal Title | Journal of Sports Science and Technology |
| Journal Vol. | 23 |
| Journal No. | 1 |
| Page no. | 52-65 |
| Keyword | Muscle Soreness, Thermal Photograph, High-Intensity Exercise Program |
| URL Website | https://he01.tci-thaijo.org/index.php/JSST/index |
| Website title | Journal of Sports Science and Technology |
| ISSN | 1513-7201;2672-927X |
| Abstract | The assessment of soreness due to skin temperature by infrared thermography is a fast, and non-invasive. This study developed thermal infrared imaging software to detect changes in skin temperature in response to inflammation associated with muscle soreness. The participants consisted of 50 healthy, it’s followed a high-intensity exercise to induce muscle soreness. The muscle soreness assessment with infrared thermography of the anterior thigh muscle were before and after exercise. The temperature measurements from the infrared thermography show thequantitative and qualitative average values from the thermal imaging of 50 set of anterior thigh muscle imaging. It was tested by temperature conversion process from the color spectrum of the thermal image. Using the principle of analyzing the color intensity from the thermal imaging spectra. The temperature range used for research was between 36°C to 45°C. The results showed that efficiency test of the program assessing muscular soreness was developed by measuring the accuracy in analyzing the temperatureof the thermal spectrum image from the thermal imaging test data of 50 set under the conditions of 10 temperature ranges, the total average was 80 %, and the temperature analysis accuracy of the heat spectrum was good. Testing the thermal imaging accuracyperformance without specifying temperature ranges to measure the processing of the developed software. It was found that at the thermal imaging level that was 1°C, the color value used to measure red, green, and blue will have a very small difference in the intensity of the color, causing the measurement to be inaccurate. From testing thermal photographs of 50 images, it was found that there were 40 images in the temperature range of 36°C. The temperature range of 37°C=8 images, 38°C=2 images, and 3 imagesof Relative Error image data. The mean total accuracy was 75%. In conclusion, this method may be useful for the physiological investigation of transdermal temperature changes to safely and noninvasively. However, applications of this technique still need to be studied in larger samples |
