Fire control and information protection in the communication of received signals using unmanned aerial vehicles

Abstract

This article describes the information protection of the fire monitoring and communication system by equipping unmanned aerial vehicles (UAVs) with touch sensors. Since the UAV is equipped with touch sensors, fire control provides for the transmission of signals from sensors to the center and information protection of its communication system. Effective methods of control and management of forest fires and other types of fires with an increase in risks associated with environmental disasters are shown. This makes the UAV an indispensable tool in controlling fires. However, the use of these technologies carries the risk of data loss and communication disruption. The article analyzes modern approaches to the integration of information transmission security and a sensor data management system, including encryption, authentication and protection against cyber attacks. Recommendations are given on the creation of a comprehensive protection of the communication system, which will improve the reliability and efficiency of management in a crisis. The basic principles of the UAV system functioning are described, including decision-making algorithms and coordination of actions of several unmanned aerial vehicles in one network. The methods of route optimization and improving the efficiency of tasks are considered. In addition, the effectiveness of monitoring forest fires by equipping unmanned aerial vehicles with sensor sensors is emphasized. An intelligent control system for an integrated UAV software package is given. The methods of algorithmic encryption of a reliable mechanism for ensuring the security of ChaCha20 data transmission in control using the UAV audio signal are proposed.