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Pose estimation system and method for visual carrier landing navigation on mobile platform

A pose estimation algorithm and pose estimation technology, applied in the field of pose estimation systems, can solve problems such as inability to complete landing tasks, inability to provide UAV navigation information, and large amount of 3D reconstruction calculations

Active Publication Date: 2015-11-04
XIDIAN UNIV
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  • Application Information

AI Technical Summary

Problems solved by technology

In the existing landing navigation method, inertial navigation needs to obtain the approximate position and speed information of the aircraft through integral calculation, so that the error will continue to increase over time; GPS (Global Positioning System) satellite navigation is susceptible to electronic interference; INS The / GPS (INS: Inertial Navigation System) integrated navigation system can only locate its own position and orientation information. If it lands at a specific location, it is difficult to guarantee the accuracy of the landing even if the longitude and latitude of the landing point are known in advance.
When it is necessary to implement autonomous landing on a mobile platform, unless the real-time attitude and position information of the platform can be obtained, the landing task cannot be completed
It can be seen that using the INS / GPS integrated navigation system alone cannot provide the navigation information required for the drone to land autonomously.
[0003] The existing computer vision-based landing navigation technology mainly solves the problem of UAV landing on a stationary platform, and rarely involves the landing problem on a mobile platform; and for the acquisition of all three-dimensional pose information, the existing technology generally uses Binocular stereo vision performs three-dimensional reconstruction of the scene to obtain the pose information of the target. The binocular stereo vision method can handle most of the scenes, but the depth information obtained after reconstruction may have depth loss, which leads to inaccurate calculation of pose information. Complete or wrong; at the same time, the 3D reconstruction based on binocular vision has a large amount of calculation, and the real-time performance is not good

Method used

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  • Pose estimation system and method for visual carrier landing navigation on mobile platform
  • Pose estimation system and method for visual carrier landing navigation on mobile platform
  • Pose estimation system and method for visual carrier landing navigation on mobile platform

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Embodiment Construction

[0046] Such as figure 1 As shown, a pose estimation method for visual landing navigation, the specific steps are:

[0047] Step 101: Start to estimate the pose of the UAV visual landing navigation;

[0048] Step 102: Design a black "T"-shaped landmark consisting of two rectangles with a length of 3 meters and a width of 1 meter; when facing the landmark, the upper left corner is set as the origin of the landmark coordinate system, and the coordinates are (0,0);

[0049] Step 103: the integrated navigation mode composed of global positioning system navigation and inertial navigation guides the unmanned aerial vehicle to fly;

[0050] Step 104: Determine whether the UAV has reached the sky above the landing landmark through target matching, if so, perform step 105, otherwise perform step 103, and continue to guide the flight;

[0051] Step 105: the camera acquires images;

[0052] Step 106: Perform binarization, morphological operations, and contour extraction processing on t...

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Abstract

The invention belongs to unmanned aerial vehicle autonomous carrier landing field, and in particular relates to a pose estimation system and method for visual carrier landing navigation on mobile platform. The system and method can resolve the pose information of a moving ship relative to a UAV on a real-time basis through treatment of a collaborative landmark, have the advantages of small amount of calculation in the algorithm, good real-time property, and simple implementation, and provides a premise for safe landing of the UAV. The method uses a camera as a main sensor to reduce development costs and shorten the development cycle.

Description

technical field [0001] The invention belongs to the field of unmanned aerial vehicle autonomous landing, and in particular relates to a pose estimation system and method for visual landing navigation on a mobile platform. Background technique [0002] The autonomous landing capability of UAV is the core part of autonomous flight capability. In the existing landing navigation method, inertial navigation needs to obtain the approximate position and speed information of the aircraft through integral calculation, so that the error will continue to increase over time; GPS (Global Positioning System) satellite navigation is susceptible to electronic interference; INS The / GPS (INS: Inertial Navigation System) integrated navigation system can only locate its own position and orientation information. If it lands at a specific location, even if the longitude and latitude of the landing point are known in advance, it is difficult to guarantee the accuracy of the landing. When it is n...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01C21/00
CPCG01C21/00
Inventor 刘贵喜黄楠楠范勇涛李斯唐海军姚李阳
Owner XIDIAN UNIV
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