DocumentCode
635968
Title
On the computation of Kalman gain in large adaptive optics systems
Author
Beghi, Alessandro ; Cenedese, Angelo ; Masiero, Andrea
Author_Institution
Dipt. di Ing. dell´Inf., Univ. di Padova, Padua, Italy
fYear
2013
fDate
25-28 June 2013
Firstpage
1374
Lastpage
1379
Abstract
In large ground telescopes the Adaptive Optics (AO) system aims at compensating the atmosphere effect on telescope measurements, and, the use of optimal filtering is fundamental for such task. This work is motivated by two important characteristics of new AO systems: on one hand, because of the request of very high measurement resolutions, the size of new telescopes, and of their sensors, is quickly increasing in the last decades, thus imposing to the AO systems the analysis of larger amount of data. On the other hand, the optimal filter has to be periodically updated according to temporal changes in atmosphere characteristics. Hence, it is of fundamental importance the use of computationally efficient algorithms for the update of the optimal filter gain. This paper proposes some changes to a recently presented method for the efficient computation, in the frequency domain, of the Kalman gain for large AO systems [15]. The proposed changes, which mainly aim at correcting some issues due to the conversion spatial-frequency domain, and viceversa, allow to compute a better approximation of the optimal Kalman gain, and, consequently, significantly improve the performance of the AO system.
Keywords
Kalman filters; adaptive optics; astronomical telescopes; AO system; adaptive optics system; atmosphere effect; conversion spatial-frequency domain; large ground telescopes; optimal Kalman gain; optimal filter gain; telescope measurement; Adaptive optics; Apertures; Approximation methods; Frequency-domain analysis; Kalman filters; Sensors; Telescopes;
fLanguage
English
Publisher
ieee
Conference_Titel
Control & Automation (MED), 2013 21st Mediterranean Conference on
Conference_Location
Chania
Print_ISBN
978-1-4799-0995-7
Type
conf
DOI
10.1109/MED.2013.6608899
Filename
6608899
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