Abstract: This paper presents the design and implementation of a robot specifically engineered to operate within a Line of Control (LOC) area, enhancing security and operational efficiency in high-risk zones. The robot is equipped with advanced sensory systems, autonomous navigation capabilities, and robust protective features to withstand harsh environmental conditions and potential threats. Key design considerations include real- time obstacle detection and avoidance, secure communication protocols for remote control and data transmission, and an adaptive system. The integration of cutting- edge technologies such as machine learning, computer vision, and resilient materials ensures the robot's reliability and effectiveness in maintaining security and performing surveillance tasks along the LOC. The research addresses the challenges of mobility in rugged terrains, the necessity of sustained operational autonomy, and the importance of safeguarding sensitive data against cyber threats. Through rigorous testing and simulations, the proposed design demonstrates significant potential in augmenting traditional security measures, providing a robust solution for military and border control applications.
Keywords: EmbeddedC,ESP32 Compiler, IFTTT, Blynk.
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