Vision-Based Approach Angle And Height Estimation For Uav Landing
CISP 2008: FIRST INTERNATIONAL CONGRESS ON IMAGE AND SIGNAL PROCESSING, VOL 3, PROCEEDINGS(2008)
摘要
In order to estimate the approach angle and relative height of Unmanned Aircraft Vehicle (UAV) which lands autonomously, a combinational approach of monocular vision and stereo vision is presented. From monocular sequences, vanishing line is extracted by Hough transform and RANSAC algorithm, and then approach angle of UAV is calculated through vanishing line geometry. From stereo sequences, feature-based matching is adopted to gain depth information by extracting Harris corner. With gained approach angle, height of UAV is obtained by 3-D reconstruction. Kalman filter model is built to obtain accurate height by analyzing motion characteristic of UAV. Experimental results show that the proposed algorithm can effectively estimate the approach angle and height, and converge quickly.
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关键词
relative height,monocular vision,vision-based approach angle,combinational approach,stereo sequence,proposed algorithm,uav landing,ransac algorithm,approach angle,accurate height,height estimation,monocular sequence,line geometry,computer vision,parallel processing,security,robustness,vectors,estimation,flowcharts,signal processing,optical filters,image reconstruction,publishing,adaptive filters,adaptive signal processing,kalman filter,mathematical model,accuracy,electronics industry,gain,filtering,stereo vision,image processing,feature extraction,lenses,data mining,synchronization,atmospheric modeling,data models,navigation,artificial neural networks,kalman filters,computer science,matched filters,computational modeling,simulation,acceleration,hough transform,solid modeling,parameter estimation,pattern recognition,sensors,shape,calibration,geometry,tracking,optical imaging,stability analysis,detectors
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