Abstract:
The design and implementation of a power supply industrial intelligent anti-theft system aim to
provide a robust solution for protecting critical infrastructure from unauthorized access and
theft. Industrial facilities often house valuable equipment and materials, making them susceptible
to theft and vandalism. This project proposes an integrated system combining advanced sensor
technologies, real-time data analysis, and remote monitoring capabilities to enhance the security
of power supply systems in industrial environments.
A variety of sensors, including vibration, motion, and tamper detection devices, are included into
the system design and are positioned strategically around important asset Arduino is central
microcontroller that interprets data and sounds an alarm in the event of suspicious activity is
connected to these sensors. The communication module makes use of technologies including
GPRS, LoRa, and GSM.
To guarantee ongoing operation during power outages, the system also integrates a dependable
power management technique with backup options like solar panels or batteries. The software
interface enhances situational awareness and decision-making by offering users real-time
monitoring, historical data analysis, and alarm management through a mobile application or
web platform.
This advanced anti-theft system is suited for a range of architectural situations due to its
scalable, flexible, and adaptive nature. Apart from safeguarding the material assets, it
discourages potential pilfers by proactive observation and emergency call handling via mobile
phone. Installing such a system is anticipated to significantly reduce theft-related losses and
improve the overall security posture of assets in residential or commercial buildings.
