Unmanned aerial vehicle 3D virtual reality shooting system

A technology of virtual reality and shooting system, applied in the field of drones, which can solve problems such as staying

Inactive Publication Date: 2016-08-03
常州视线电子科技有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, the current application of UAVs mostly stays in two-dimensional shooting, so it is necessary to develop a new way of using UAVs to make UAVs play a greater role

Method used

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  • Unmanned aerial vehicle 3D virtual reality shooting system
  • Unmanned aerial vehicle 3D virtual reality shooting system
  • Unmanned aerial vehicle 3D virtual reality shooting system

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0022] see figure 1 As shown, the UAV 3D virtual reality shooting system includes a multi-rotor UAV 1, a data transfer device 3 and a virtual reality helmet 2, and the multi-rotor UAV 1 is equipped with a binocular 3D camera 4, and the binocular 3D Camera 4 is connected with image transmitter 5, and described virtual reality helmet 2 is provided with 3D display 9; Described data transfer device 3 comprises data processing center 8, and described data processing center 8 connects image converter 7, and described image converter 7 is connected to the image receiver 6, the image receiver 6 is connected to the image transmitter 5, and the data processing center 8 is connected to the 3D display 9.

[0023] The 3D display 9 adopts an OLED display.

[0024] The binocular 3D camera 4 is a dedicated camera for high-definition aerial photography.

[0025] The 3D display 9 is connected to the data processing center 8 through an HDMI interface.

[0026] The virtual reality helmet 2 is ...

Embodiment 2

[0028] see figure 2 As shown, the UAV 3D virtual reality head control system includes a multi-rotor UAV 1, a virtual reality helmet 2 and a data transfer device 3, and the multi-rotor UAV 1 is equipped with a binocular 3D camera 4 and a three-axis automatic Stable cloud platform 14, described binocular 3D camera 4 is connected with image transmitter 5, and described three-axis self-stabilizing platform 14 is connected with head tracking information receiver 13; Described virtual reality helmet 2 is provided with 3D display 9 and Head tracking sensor 10; the data transfer device 3 includes a data processing center 8, the data processing center 8 is connected to the 3D display 9 and the head tracking sensor 10 and the data processing center 8 is also connected to an image converter 7 And head tracking information output module 11, described image converter 7 is connected with image receiver 6, and described head tracking information output module 11 is connected with head track...

Embodiment 3

[0037] see image 3As shown, the UAV 3D virtual reality gesture control system includes a multi-rotor UAV 1, a virtual reality helmet 2 and a data transfer device 3, and the multi-rotor UAV 1 is provided with a binocular 3D camera 4, a three-axis automatic Stable cloud platform 14 and flight control module 18, described binocular 3D camera 4 is connected with image transmitter 5, described three-axis self-stabilizing platform 14 is connected with head tracking information receiver 13, and described flight control module 18 is connected There is a flight control communication module receiving end 17; the virtual reality helmet 2 is provided with a 3D display 9, a head tracking sensor 10 and a gesture controller 15; the data transfer device 3 is provided with a data processing center 8, and the data The processing center 8 is connected to the 3D display 9, the head tracking sensor 10 and the gesture controller 15, and the data processing center 8 is also connected to the image c...

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Abstract

A unmanned aerial vehicle 3D virtual reality shooting system of the present invention comprises a multi-rotor unmanned aerial vehicle, a virtual reality helmet and a data transfer device, and the multi-rotor unmanned aerial vehicle is equipped with a binocular 3D camera, a three-shaft self-stabilizing pan-tilt and a flight control module. The binocular 3D camera is connected with an image emitter, the three-shaft self-stabilizing pan-tilt is connected with a head tracking information receiver, and the flight control module is connected with a flight control communication module reception terminal. The virtual reality helmet is equipped with a 3D display, a head tracking sensor and a gesture controller, the data transfer device is equipped with a data processing center, and the data processing center is connected with an image converter, a head tracking information output module and a flight control communication module emission terminal. The beneficial effects of the present invention are that a 3D flight picture shooting function, a head tracking control function and a gesture control function are integrated, so that users can feel the pictures in a shooting range personally; the unmanned aerial vehicle 3D virtual reality shooting system can substitute for a remote controller of complicated operations, so that a unmanned aerial vehicle can be operated more really and conveniently.

Description

technical field [0001] The invention relates to the technical field of unmanned aerial vehicles, in particular to a 3D virtual reality shooting system for unmanned aerial vehicles. Background technique [0002] Virtual reality (Virtual Reality, referred to as VR), also known as spiritual technology or artificial environment, is to use computer simulation to generate a three-dimensional virtual world, providing users with simulations of vision, hearing, touch and other senses, allowing users to feel as if they were there. Generally, things in three-dimensional space can be observed without limitation in time. UAV aerial photography has the advantages of large scale, wide viewing angle and high current situation. It is widely used in military reconnaissance, national ecological environment protection, mineral resources exploration, marine environment monitoring, land use investigation, water resource development, crop growth monitoring and production estimation, Agricultural ...

Claims

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Application Information

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IPC IPC(8): H04N13/02H04N13/04
CPCH04N13/332H04N13/204
Inventor 刘柳杜洋洋黄国刚
Owner 常州视线电子科技有限公司
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