Title :
Statistical behavior of joint least-square estimation in the phase diversity context
Author :
Idier, Jerome ; Mugnier, Laurent ; Blanc, Amandine
Author_Institution :
Ecole Centrale de Nantes, France
Abstract :
The images recorded by optical telescopes are often degraded by aberrations that induce phase variations in the pupil plane. Several wavefront sensing techniques have been proposed to estimate aberrated phases. One of them is phase diversity, for which the joint least-square approach introduced by Gonsalves et al. is a reference method to estimate phase coefficients from the recorded images. In this paper, we rely on the asymptotic theory of Toeplitz matrices to show that Gonsalves´ technique provides a consistent phase estimator as the size of the images grows. No comparable result is yielded by the classical joint maximum likelihood interpretation (e.g., as found in the work by Paxman et al.). Finally, our theoretical analysis is illustrated through simulated problems.
Keywords :
Toeplitz matrices; image processing; least squares approximations; optical images; phase estimation; statistical analysis; telescopes; Teoplitz matrices; asymptotic theory; image recording; joint least-square estimation; optical telescopes; phase diversity; phase diversity context; phase estimator; wavefront sensing techniques; Analytical models; Atmospheric modeling; Degradation; H infinity control; Image analysis; Maximum likelihood estimation; Optical recording; Optical sensors; Phase estimation; Telescopes; Error analysis; Toeplitz matrices; least-squares methods; optical image processing; parameter estimation; phase diversity; statistics; Computer Simulation; Data Interpretation, Statistical; Image Enhancement; Image Interpretation, Computer-Assisted; Information Storage and Retrieval; Least-Squares Analysis; Models, Statistical; Refractometry;
Journal_Title :
Image Processing, IEEE Transactions on
DOI :
10.1109/TIP.2005.859365
