H∞ LIDAR odometry for spacecraft relative navigation
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Kechagias-Stamatis, Odysseas
Aouf, Nabil
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1751-8784
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Kechagias-Stamatis O, Aouf N. (2019) H∞ LIDAR odometry for spacecraft relative navigation. IET Radar Sonar and Navigation, Volume 13, Issue 5, May 2019. pp. 771-775
Abstract
Current light detection and ranging (LIDAR) based odometry solutions that are used for spacecraft relative navigation suffer from quite a few deficiencies. These include an off-line training requirement and relying on the iterative closest point (ICP) that does not guarantee a globally optimum solution. To encounter this, the authors suggest a robust architecture that overcomes the problems of current proposals by combining the concepts of 3D local feature matching with an adaptive variant of the H∞ recursive filtering process. Trials on real laser scans of an EnviSat model demonstrate that the proposed architecture affords at least one order of magnitude better accuracy compared to ICP.
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Keywords
motion estimation, space vehicles, feature extraction, recursive filters, distance measurement, iterative methods, optical radar, navigation, image registration, aerospace computing, image matching
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Attribution-NonCommercial 4.0 International