Proceedings of the International scientific and practical conference ―Science at the Frontier of Civilizations: Challenges and Perspectives‖ (December 27-29, 2025) / Publisher website: www.naukainfo.com. – Helsinki, Finland, 2026. – 252 p.

82 Practical Application Examples: • Industrial Zones: During fires in industrial areas damaged by shelling, ground robots delivered water to fuel depots, preventing personnel from approaching dangerous hotspots. • High-Rise Buildings: Drones were used to detect hidden fire pockets in multi- story buildings where rescuer access was restricted due to collapsed floors. • Chemical Hazards: In cases of chemical or fuel fires, robots equipped with specialized sensors helped determine the concentration of harmful gases, preventing injury to personnel [9]. The Place of Robotic Technology in the Fire Response System: • As a support tool for localizing fires in hard-to-reach areas; • As a means of reconnaissance and situational assessment; • As an autonomous or remote-controlled device for extinguishing large-scale fire clusters, including chemical fires or high-risk facilities [10]. Conclusion In times of martial law, robotic technology becomes an integral part of the civil protection system. It ensures the safety of rescuers, increases the efficiency of firefighting, and facilitates rapid response through the integration of modern technology into risk management. Its use is not only a technological innovation but a necessary tool for saving human lives and minimizing material losses under the complex conditions of wartime. REFERENCE: 1. Khalid, A. (2023). Remote Control and Autonomous Navigation of Firefighting Vehicles in Chemical and Radioactive Zones. Sensors and Actuators, 354, 114282. (Robots in contaminated environments). 2. Smith, R., & Jones, M. (2023). Urban Search and Rescue (USAR) in Collapsed Structures: The Role of Small Ground Robots. Fire Technology, 59, 112–134. (Focus on high-rise and debris operations).

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