Autonomously-operated unmanned aerial vehicle for stage and control system

Abstract

The invention discloses an autonomously-operated unmanned aerial vehicle for stage and control system. The unmanned aerial vehicle comprises a controller, an installation box, a data analysis module and a flight adjustment module; the controller is installed on the upper side of an unmanned aerial vehicle body, and the installation box is fixed to the position, located on the unmanned aerial vehicle body, of the opposite face of the controller; the controller is provided with an unmanned aerial vehicle control system in a matched mode, and the data analysis module is used for analyzing flightinformation of the unmanned aerial vehicle; the flight adjusting module is used for receiving the flight adjusting signal and adjusting the flight speed, the flight height, the flight track and the flight time of the unmanned aerial vehicle according to the flight adjusting signal. According to the design, the system calculates real-time flight data of the unmanned aerial vehicle through data analysis and compares the real-time flight data with preset flight data, so that the flight data of the unmanned aerial vehicle can be conveniently acquired in real time and automatically adjusted. According to the invention, the unmanned aerial vehicle does not need to be manually controlled in real time and manually and repeatedly adjusted, and stage pictures shot by the unmanned aerial vehicle areprevented from having flaws.

Description

technical field [0001] The invention belongs to the technical field of unmanned aerial vehicle, relates to unmanned aerial vehicle control technology, in particular to a stage unmanned aerial vehicle and control system capable of autonomous operation. Background technique [0002] UAVs are unmanned aircraft operated by radio-controlled equipment and self-contained program controls, or operated entirely or intermittently autonomously by an on-board computer. Drones are often better suited for missions that are too "dumb, dirty or dangerous" than manned aircraft. According to the application field, UAV can be divided into military and civilian. In terms of military use, UAVs are divided into reconnaissance aircraft and target aircraft. In terms of civilian use, drones + industry applications are the real rigid needs of drones; currently, they are used in aerial photography, agriculture, plant protection, micro selfies, express delivery, disaster relief, wildlife observation,...

AI Technical Summary

Problems solved by technology

[0003] During stage performances, in order to better present the stage images, high-altitude shooting is often required. In order to ensure the personal safety of camera workers, drones are often used to replace camera workers for high-altitude shooting. Although the use of drones is convenient , but it needs to rely on manual real-time control, and there will inevitably be some mistakes in manual control, which will lead to flaws in the stage pictures taken by drones; drones rely on manual adjustment and operation during flight, and manual adjustment and control cannot be done. To be 100% accurate, manual repeated adjustment operations are required, which is time-consuming and labor-intensive. For this reason, we propose a stage-use drone and control system that can operate autonomously.

Images