Modeling Of Mask Detection Systems, Distance Between Objects And Facial Recognition Using The Tiny-YOLOV4 Method, Convolutional Neural Network, And Viola Jones

Authors

  • Erby Virta Joseph Paays Universitas Trisakti
  • Henry Candra Universitas Trisakti

DOI:

https://doi.org/10.59188/eduvest.v4i10.43142

Keywords:

Tiny-YOLOV4, CNN, mask detection, distance detection, face recognition

Abstract

The development of technology is currently increasing very rapidly, the latest technology such as Face Detection and Face Recognition in public facilities has been widely applied, such as cameras for attendance, facial detection devices as mobile phone security and various other new innovations in the field of technology. The purpose of creating this model is to determine the distance, and the use of masks in public places and to determine the performance when the two algorithms between Tiny-YOLOV4 and Viola Jones are combined. This method uses CPU testing with a clock speed of 2.9 GHz and GPU with a clock speed of 1590 MHz with an accuracy level of 92.6% for mask object detection and 90.67% for face recognition with a maximum distance in front of the camera for human detection is 830 centimeters, mask detection 730 centimeters, and face recognition 530 centimeters. The results of the study produced an accuracy of 92.6% for mask detection and an accuracy of 90.67% for face recognition at maximum distances of 730 cm and 530 cm respectively. The conclusion shows that this system is effective for detecting masks, faces, and distance, providing a significant tool for monitoring compliance in public spaces. Implementing this system can serve as a preventive measure for potential future pandemics

References

Ahmed, I., Ahmad, M., Rodrigues, J. J. P. C., Jeon, G., & Din, S. (2021). A deep learning-based social distance monitoring framework for COVID-19. Sustainable Cities and Society, 65, 102571.

Chellappa, R., Sinha, P., & Phillips, P. J. (2010). Face recognition by computers and humans. Computer, 43(2), 46–55.

Costa, D. G., & Peixoto, J. P. J. (2020). COVID‐19 pandemic: a review of smart cities initiatives to face new outbreaks. IET Smart Cities, 2(2), 64–73.

Ferretti, L., Wymant, C., Kendall, M., Zhao, L., Nurtay, A., Abeler-Dörner, L., Parker, M., Bonsall, D., & Fraser, C. (2020). Quantifying SARS-CoV-2 transmission suggests epidemic control with digital contact tracing. Science, 368(6491), eabb6936.

Keniya, R., & Mehendale, N. (2020). Real-time social distancing detector using socialdistancingnet-19 deep learning network. Available at SSRN 3669311.

Loey, M., Manogaran, G., Taha, M. H. N., & Khalifa, N. E. M. (2021). A hybrid deep transfer learning model with machine learning methods for face mask detection in the era of the COVID-19 pandemic. Measurement, 167, 108288.

Mao, N., An, C. K., Guo, L. Y., Wang, M., Guo, L., Guo, S. R., & Long, E. S. (2020). Transmission risk of infectious droplets in physical spreading process at different times: a review. Building and Environment, 185, 107307.

Militante, S. V, & Dionisio, N. V. (2020). Deep learning implementation of facemask and physical distancing detection with alarm systems. 2020 Third International Conference on Vocational Education and Electrical Engineering (ICVEE), 1–5.

Mohan, A., Papageorgiou, C., & Poggio, T. (2001). Example-based object detection in images by components. IEEE Transactions on Pattern Analysis and Machine Intelligence, 23(4), 349–361.

Punn, N. S., Sonbhadra, S. K., Agarwal, S., & Rai, G. (2020). Monitoring COVID-19 social distancing with person detection and tracking via fine-tuned YOLO v3 and Deepsort techniques. ArXiv Preprint ArXiv:2005.01385.

Saleh, A., Sibero, A. F. K., & Manurung, I. H. G. (2021). Pengenalan Tanaman Herbal Menggunakan Algoritma Learning Vector Quantization Dan Manhattan Distance. JURNAL TEKNOLOGI KESEHATAN DAN ILMU SOSIAL (TEKESNOS), 3(2), 271–276.

Winjaya, F. (2017). Rancang bangun mesin pemanggang biji kopi berbasis image processing dan akustik. Department of Electrical Engineering, Faculty of Industrial Technology, Institut Teknologi Sepuluh Nopember, Surabaya, Indonesia.

Yadav, S., Gulia, P., Gill, N. S., & Chatterjee, J. M. (2022). [Retracted] A Real‐Time Crowd Monitoring and Management System for Social Distance Classification and Healthcare Using Deep Learning. Journal of Healthcare Engineering, 2022(1), 2130172.

Yang, D., Yurtsever, E., Renganathan, V., Redmill, K. A., & Özgüner, Ü. (2021). A vision-based social distancing and critical density detection system for COVID-19. Sensors, 21(13), 4608.

Yuliana. (2020). Corona virus diseases (Covid -19); Sebuah tinjauan literatur. Wellness and Healthy Magazine, 2(1), 187–192.

Yusriani, Y. (2022). Monograf Peran Kader Kesehatan Dalam Meningkatkan Imunitas Tubuh Ibu Hamil Sebagai Upaya Pencegahan Covid-19. Tahta Media Group.

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Published

2024-11-11

Issue

Vol. 4 No. 10 (2024): Journal Eduvest - Journal of Universal Studies

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Articles

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Copyright (c) 2024 Erby Virta Joseph Paays, Henry Candra

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