An edge-free, scale-, pose- and illumination-invariant approach to crater detection for spacecraft navigation

Author

Maass, Bolko ; Kr?¼ger, Hans ; Theil, Stephan

Author_Institution

GNC Div., German Aerosp. Center DLR, Bremen, Germany

fYear

2011

Firstpage

603

Lastpage

608

Abstract

In this paper we review the image processing aspects of the popular edge-based approaches to crater detection in spacecraft navigation and discuss their performance and inherent shortcomings and the constraints these impose on mission parameters. Key weaknesses are identified and an alternative, edge-free approach is suggested. No comprehensive evaluation of detection rates and ratio of false positives to correct identifications is provided, as this is a work in progress, but example images for Lunar, asteroid and artificial settings are included to give an idea of the method´s performance. Finally, the laboratory facility TRON (Testbed for Robotic Optical Navigation) used for testing and evaluating our algorithms is introduced.

Keywords

asteroids; astronomical image processing; lunar surface; Lunar image; TRON laboratory facility; Testbed for Robotic Optical Navigation; artificial setting image; asteroid image; crater detection; detection rate evaluation; edge-free approach; false positive ratio; illumination-invariant approach; image processing; mission parameters; pose-invariant approach; scale-invariant approach; spacecraft navigation; Image edge detection;

fLanguage

English

Publisher

ieee

Conference_Titel

Image and Signal Processing and Analysis (ISPA), 2011 7th International Symposium on

ISSN

1845-5921

Print_ISBN

978-1-4577-0841-1

Electronic_ISBN

1845-5921

Type

conf

Filename

6046676