Multiple Linear Regression and Deep Learning in Body Temperature Detection and Mask Detection

Faisal  Najib Abdullah; Mohamad Nurkamal Fauzan; Noviana Riza

doi:10.25299/itjrd.2022.7424

Authors

Faisal Najib Abdullah Informatics Engineering, Polytechnic Pos Indonesia, Bandung, Indonesia
Mohamad Nurkamal Fauzan Politeknik Pos Indonesia
Noviana Riza Informatics Engineering, Polytechnic Pos Indonesia, Bandung, Indonesia

DOI:

https://doi.org/10.25299/itjrd.2022.7424

Keywords:

Thermal Camera, Mask Detection, Multiple Linear Regression, Deep Learning

Abstract

In this new normal era, many activities began to operate again, such as offices, malls, etc. This creates a potential mass crowd. The public must follow health protocols as recommended by the government, including wearing masks and checking the temperature to anticipate the spread of the coronavirus. This study tested a tool that included image processing and artificial intelligence to help implement health protocols as recommended by the government. This tool connects Raspberry PI, Thermal Camera (amg8833), Pi Camera, an ultrasonic sensor with Multiple Linear Regression and Deep Learning algorithms. The purpose of this tool is to detect body temperature and detect the use of masks. The system will check on the pi camera frame whether the person is wearing a mask or not. The system is trained using the Deep Learning method to detect the use of masks. The system will check the temperature of the human body and the distance between humans and the tool. Temperature and distance data are entered in multiple linear regression formulas to get more accurate results. The processed results of the system will be displayed on the monitor screen if detected using a mask and the normal temperature will be green and if it is not detected it will be red and give a warning sound. The data is sent to the server and displayed via the web. We found that this tool succeeded in detecting body temperature within a distance of 1 to 3 meters with an accuracy of 99.49%, detecting people using masks with an accuracy of 94.71%, and detecting people not wearing masks with an accuracy of 97.7%.

Downloads

Download data is not yet available.

References

Ali, Alyaa H, al-Ahmed, Hazim, Mazhir, Sabah N, et al, “Using texture analysis image processing technique to study the effect of microwave plasma on the living tissu,” Baghdad Science Journal, vol. 15, no. 1, 2018.

Panayides, Andreas S, Amini, Amir, Filipovic, Nenad D, et al, “AI in medical imaging informatics: current challenges and future directions,” IEEE Journal of Biomedical and Health Informatics, vol. 24, no. 7, p. 1897-1857, 2020.

McGurnaghan, Stuart J, Weir, Amanda, Bishop, Jen, et al, “Risks of and risk factors for COVID-19 disease in people with diabetes: a cohort study of the total population of Scotland,” The Lancet Diabetes Endocrinology, vol. 9, no. 2, p. 82-93, 2021.

Shen, Yang, Guo, Dejun, Long, Fei, et al, “Robots under COVID-19 pandemic: A comprehensive survey,” Ieee Access, 2020.

Li, Junfeng, Zhang, Dehai, Liu, Qing, et al, “COVID-GATNet: A Deep Learning Framework for Screening of COVID-19 from Chest X-Ray Images,” 2020 IEEE 6th International Conference on Computer and Communications (ICCC), p. 1897-1902, 2020.

Zhang, Ran, Tie, Xin, Qi, Zhihua, et al, “Diagnosis of coronavirus disease 2019 pneumonia by using chest radiography: Value of artificial intelligence,” Radiology, vol. 298, no. 2, p. E88-E97, 2021.

Tabik, Siham, G'omez-R'ios, Anabel, Mart'in-Rodr'iguez, Jos'e Luis, et al, “COVIDGR dataset and COVID-SDNet methodology for predicting COVID-19 based on Chest X-Ray images,” IEEE Journal of Biomedical and Health Informatics, vol. 24, no. 12, p. 3595-3605, 2020.

Wu, Yu-Huan, Gao, Shang-Hua, Mei, Jie, et al, “Jcs: An explainable covid-19 diagnosis system by joint classification and segmentation,” IEEE Transactions on Image Processing, vol. 30, p. 3113-3126, 2021.

Diallo, Papa Abdou Karim Karou and Ju, Yun, “Accurate Detection of COVID-19 Using K-EfficientNet Deep Learning Image Classifier and K-COVID Chest X-Ray Images Dataset,” 2020 IEEE 6th International Conference on Computer and Communications (ICCC), p. 1527-1531, 2020.

Wang, Ryan Yixiang, Guo, Tim Qinsong, Li, Leo, et al, “Predictions of COVID-19 Infection Severity Based on Co-associations between the SNPs of Co-morbid Diseases and COVID-19 through Machine Learning of Genetic Data,” 2020 IEEE 8th International Conference on Computer Science and Network Technology (ICCSNT), p. 92-96, 2020.

AL-TAMEEMI, Muaad Issa, “RMSRS: Rover Multi-purpose Surveillance Robotic System,” Baghdad Science Journal, vol. 17, no. 3, p. 1049-1049, 2020.

Wang, Zhaoming and Liu, Xiaomin, “Design of Animal Detector Based on Thermal Imaging Sensor,” Journal of Physics: Conference Series, 2020.

Latifah, A and Ramdhani, W and Nasrulloh, MR and Elsen, R, “Ultrasonic sensor for monitoring corn growth based on Raspberry Pi,” IOP Conference Series: Materials Science and Engineering, vol. 1098, no. 4, p. 042087, 2021.

Arif, Ridi, Santoso, Koekoeh, Wibawa, Dhani S, “Rats Development of Contactless Thermal Detector for Animal: Comparison of Three Sensor Types,” 2nd International Conference on Veterinary, Animal, and Environmental Sciences (ICVAES 2020). P. 25-28, 2021.

Matthews, Richard, Falkner, Nick, Sorell, Matthew, “Reverse engineering the raspberry pi camera v2: a study of pixel non-uniformity using a scanning electron microscope” Forensic Science International: Digital Investigation, vol. 32, p. 200900, 2020.

Ahmed, Ahmed Dheyab, Abdulwahhab, Baydaa Ismael, Abdulah, Ebtisam Karim, “A comparison among Different Methods for Estimating Regression Parameters with Autocorrelation Problem under Exponentially Distributed Error,” Baghdad Science Journal, vol. 17, no. 3, p. 0980-0980, 2020.

Asroni, Asroni, Ku-Mahamud, Ku Ruhana, Damarjati, ”Arabic Speech Classification Method Based on Padding and Deep Learning Neural Network,” Baghdad Science Journal, vol. 18, no. 2, p. 0925-0925, 2021.

Saminathan, Kumaran, Kishore, Kamalesh, Veerasathish, “Face Mask Detection Using Raspberry Pi,” Annals of the Romanian Society for Cell Biology, p. 9982-9988, 2021

Lobur, Mykhailo, Salo, Yulian, Farmaha, Ihor, et al, “Automated ARM CPU-Based Cloud System for the Industrial Internet of Things,” 2021 IEEE XVIIth International Conference on the Perspective Technologies and Methods in MEMS Design (MEMSTECH), p. 25-28, 2021