Elevation modeling and motion tracking using a binocular camera system with seven degrees of freedom

Author

Pölzleitner, Wolfgang ; Paar, Gerhard

Author_Institution

Joanneum Res., Graz, Austria

fYear

1992

fDate

30 Aug-3 Sep 1992

Firstpage

17

Lastpage

20

Abstract

The autonomous navigation of a spacecraft during descent and landing using a computer vision system has been recognized as a key to the feasibility of interplanetary missions. One possible approach for navigation is to compute an elevation model and high level description of the planetary body during orbit, and use this information jointly with real-time dynamic range estimation and tracking to navigate the spacecraft. The authors describe a vision system that is used to navigate the spacecraft during descent. The final goal is to position a roving vehicle on a selected landing site and position it on its trajectory. The methods studied should be applicable to the landing phase and later on also in the autonomous motion of the rover on the surface

Keywords

computer vision; computerised navigation; image sensors; space vehicles; tracking; autonomous navigation; binocular camera system; computer vision; computer vision system; computerised navigation; descent; elevation model; image sensors; landing; motion tracking; real-time dynamic range estimation; roving vehicle; spacecraft; Cameras; Computational modeling; Computer vision; Dynamic range; Mars; Navigation; Planetary orbits; Space vehicles; Stereo vision; Tracking;

fLanguage

English

Publisher

ieee

Conference_Titel

Pattern Recognition, 1992. Vol.I. Conference A: Computer Vision and Applications, Proceedings., 11th IAPR International Conference on

Conference_Location

The Hague

Print_ISBN

0-8186-2910-X

Type

conf

DOI

10.1109/ICPR.1992.201499

Filename

201499