Spatial geometrical calibration of optoelectronic devices

¹ Expert and Analytical Center, 33, Talalikhina str., Moscow, 109316, Russia
² Institute of Astronomy of the Russian Academy of Sciences, 48, Pyatnitskaya str., Moscow, 119017, Russia
³ Marine Hydrophysical Institute, Russian Academy of Sciences, 2, Kаpitanskaya str., Sevastopol, 299011, Russia
⁴ Reshetnev Siberian State University of Science and Technology, 31, Krasnoiarskii Rabochii Prospekt, Krasnoyarsk, 660037, Russia
⁵ Special Research of Moscow Power Engineering Institute JSC, 14 Krasnokazarmennaya St., Moscow, 111250, Russia
⁶ Shternberg State Astronomical Institute, Lomonosov Moscow State University, 13, Universitetsky Prospekt, Moscow, 119234, Russia

^* Corresponding author: kartsan2003@mail.ru

Abstract

Space equipment experiences high thermal and mechanical loads that cause deformation of its structures, as well as elements of optical systems and radiation receivers, which can lead to changes in the mutual position of the optoelectronic device elements, disturbing its alignment, degrading image quality and increasing pointing errors. This paper presents a method of spatial geometric calibration that does not require additional equipment and investigates the dependence of the identification results on the viewing angle. The proposed methodology of optoelectronic instrument calibration is intended to improve efficiency, reliability and survivability of automated spacecrafts during their operation.