Atmospheric turbulence prediction: A PCA approach

Author

Beghi, Alessandro ; Cenedese, Angelo ; Masiero, Andrea

Author_Institution

Univ. di Padova, Padova

fYear

2007

fDate

12-14 Dec. 2007

Firstpage

566

Lastpage

571

Abstract

Current and next generation of telescopes resort to adaptive optics in order to compensate for atmospheric turbulence and correct the incident wavefront, which is affected mainly as far as the phase is concerned, in order to get clearer images of the observed objects. Starting from the statistical description of the atmospheric turbulence, the reconstruction of the turbulent phase is therefore a key problem in astronomical seeing and is central to designing control systems to command the adaptive optic deformable mirror. Moreover, the introduction of a dynamical model able to predict the turbulence helps improving the performance of the control system and its description through a principal component analysis (PCA) approach yields compactness to the representation while preserving the physical insight of a modal decomposition.

Keywords

adaptive optics; astronomical telescopes; atmospheric turbulence; mirrors; predictive control; principal component analysis; adaptive optic deformable mirror; adaptive optics; astronomical seeing; atmospheric turbulence prediction; control system design; incident wavefront correction; modal decomposition; principal component analysis; turbulent phase reconstruction; Adaptive optics; Atmospheric waves; Centralized control; Control systems; Image reconstruction; Mirrors; Optical control; Optical design; Principal component analysis; Telescopes;

fLanguage

English

Publisher

ieee

Conference_Titel

Decision and Control, 2007 46th IEEE Conference on

Conference_Location

New Orleans, LA

ISSN

0191-2216

Print_ISBN

978-1-4244-1497-0

Electronic_ISBN

0191-2216

Type

conf

DOI

10.1109/CDC.2007.4434459

Filename

4434459