论文信息 - A crater detection and identification algorithm for autonomous lunar landing

A crater detection and identification algorithm for autonomous lunar landing

Abstract Future space exploration missions and in particular robotic lunar landing missions will require a high-precision autonomous navigation. A key element of the navigation chain is the direct determination of the camera pose in the terrain reference frame by detecting and identifying visual features. For space applications and especially for lunar landing, craters are useful features. A segmentation-based method is introduced to automatically detect craters in an image. Finally, a method to identify the detected craters in a reference database is presented.

[1] Stergios I. Roumeliotis,et al. Vision-Aided Inertial Navigation for Spacecraft Entry, Descent, and Landing , 2009, IEEE Transactions on Robotics.

[2] Manny R. Leinz,et al. Technology for Autonomous Optical Planetary Navigation and Precision Landing , 2007 .

[3] Ding Meng,et al. Autonomous Craters Detection from Planetary Image , 2008, 2008 3rd International Conference on Innovative Computing Information and Control.

[4] Patrick Rives,et al. Vision-based Autonomous Approach and Landing for an Aircraft using a Direct Visual Tracking Method , 2009, ICINCO-RA.

[5] J. K. Miller,et al. Autonomous landmark based spacecraft navigation system , 2003 .