Title :
Combining thermal and visual imaging in spacecraft proximity operations
Author :
Palmerini, Giovanni B.
Author_Institution :
Electr. Eng. & Energetics Dept., Sapienza Univ. di Roma, Rome, Italy
Abstract :
Advances in multiple spacecraft operations require precise determination of the relative kinematic state of the platforms involved. Such knowledge - above all in case of non-cooperative approaches - can be usefully attained by means of imaging. However, the extremely varying light conditions in the orbital environment do not allow for extended operations in the visible spectrum. The paper investigates the possible coupling of thermal imagery with visible one in order to have a continued relative tracking even during eclipse. The focus is on simple camera devices, suitable for mounting onboard microsatellites, and on the combined (visual and infrared) image processing and data fusion helped by the purposeful modeling of the spacecraft dynamics and bus signature.
Keywords :
aerospace control; aerospace navigation; autonomous aerial vehicles; cameras; image fusion; infrared imaging; motion control; position control; robot vision; space vehicles; vehicle dynamics; bus signature; camera devices; data fusion; formation flying navigation; infrared image processing; light conditions; noncooperative approaches; onboard microsatellites; orbital environment; relative kinematic state; spacecraft dynamics; spacecraft proximity operations; thermal imagery coupling; thermal imaging; visible spectrum; visual image processing; visual imaging; Cameras; Earth; Orbits; Space vehicles; Trajectory; Visualization; formation flying navigation; in-space thermal imaging; infrared/visible data fusion; micro satellite onboard camera;
Conference_Titel :
Control Automation Robotics & Vision (ICARCV), 2014 13th International Conference on
DOI :
10.1109/ICARCV.2014.7064336
