Currently, unmanned aerial vehicles (UAVs) have many types with different configurations, sizes, technical features and perform tasks not only for commercial purposes but are also widely used in the military. For example, depending on the mission being performed, they may include drones for terrain reconnaissance, surveillance, intelligence and suicide.v.v. Based on theory and practice in the country and around the world, is being applied on two sensors for observation, the authors have researched and developed a number of additional sensors to increase the reliability and accuracy of the device, based on optoelectronic theory when measuring angular coordinates or distance to the target during the mission. This article presents a solution model to evaluate stability and reliability when solving reconnaissance and measurement problems with optical devices. In actual applications in different environments, the optical part always has the advantage of accuracy and stability in the task of detecting targets, measuring angular coordinates and distance to the target. The results of this research provide a device capable of effectively overcoming the process of observing and detecting air and ground targets with high accuracy without the need for constant adjustment of angles. In addition to the range and angular coordinates of the target as well as radius, the device's movement speed is an issue that needs to be taken into account during actual research and surveys.

UAV; Optical equipment; Reconnaissance; Optics; Target

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