Modified locker system with UV light disinfection and real-time facial recognition technology/
Miracle Rose A. Bantug, Jonathan M. Baņares, Allen Jay L. Borreo, Rhogy I. Centeno, and Julius P. Salcedo .--
- Manila: Technological University of the Philippines, 2023.
- x, 118pages: 29cm. +1 CD-ROM (4 3/4in.)
Thesis (undergraduate)
College of Engineering.--
Includes bibliography:
Locker systems have grown in popularity in public places such as gyms, airports, and theme parks, as they provide consumers with a secure and handy storage alternative. However, Traditional lockers lack suitable security features, and some customers have difficulties obtaining a locker that is the right size for their goods. Furthermore, these lockers are not always sanitized, allowing germs and bacteria to spread. The COVID-19 pandemic has brought to light the need for enhanced safety measures in public areas. This study aims to develop a prototype locker system that incorporates UV-C light disinfection, real-time facial recognition, and RFID wristband authentication, to provide a secure and hygienic storage solution. With the integration of UV-C light disinfection, it can effectively reduce the spread of harmful bacteria and viruses, promoting a safer and healthier environment for users. The use of real-time facial recognition and RFID wristband authentication provides a secure and contactless method of accessing personal belongings, reducing the risk of transmission of infectious diseases. The system was tested for durability, ease of use, and security, with positive results. The system's facial recognition technology and RFID wristbands were tested for accuracy and reliability, with high levels of accuracy and reliability observed. The integration of sustainable practices and cutting-edge technology makes it an innovative and valuable addition to any facility looking to enhance its safety measures while promoting sustainable practices, by contributing to the development of safe and sustainable storage solutions.