Photoelectrical fire control system and method of armed unmanned aerial vehicle

Abstract

The invention discloses a photoelectrical fire control system and method of an armed unmanned aerial vehicle. The photoelectrical fire control system comprises an unmanned aerial vehicle body, an electric source, an electrical pan tilt, a camera, a distance meter, a sensor, a computer, a firing angle adjusting mechanism, a communication module and a ground display and control platform, wherein theelectrical pan tilt controls the camera and the laser distance meter to catch, track and measure a target; the computer calculates firing elements according to received parameters by a solving hit method; and the adjusting mechanism and the unmanned aerial vehicle are used for executing the command to aim at the target. The photoelectrical fire control system disclosed by the invention has the beneficial effects of being compact in structure, small in size, high in accuracy and high in mechanism executing speed; the specific requirements for being light in weighting, and automatically and quickly aiming at and hitting the target of the fire control system of the unmanned aerial vehicle are well met; the working flow of the fire control system and the solving hit method are low in occupiedresources, and high in solving efficiency; and the requirements of the armed unmanned aerial vehicle for accurately measuring the target, precisely aiming at the target and precisely hitting the target are met.

Description

technical field [0001] The invention relates to armed aiming and control technology, in particular to the aiming and automatic control technology of weapons carried by drones. Background technique [0002] The control of weapon shooting, from the initial use of sights and scales, to the later development of more complex aiming devices, all rely on human eye observation and manual operation. Modern artillery, tank guns, tactical rockets and missiles, airborne weapons, shipborne weapons, etc. are mostly equipped with fire control systems. Unguided weapons are equipped with a fire control system, which can improve the speed and accuracy of aiming and launching, and enhance the adaptability to harsh battlefield environments, so as to give full play to the destructive capabilities of weapons. The guided weapon is equipped with a fire control system. Due to the probabilistic targeting before launch, the working conditions of its guidance system can be improved, the missile's abil...

AI Technical Summary

Problems solved by technology

The change of flight attitude seriously interferes with the aiming of the weapon. Without the adjustment mechanism of shooting angle and shooting direction, the armed drone cannot adapt to the variability of the target, and the target hitting accuracy is very low.

The existing airborne fire control systems, artillery fire control systems, and shipboard fire control systems are not suitable for UAVs due to factors such as volume, weight, and functions. It can be said that the armed UAV fire control system is still in a technical blank

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