Artículo de publicación ISIWe characterize the performance of the widely used least-squares estimator in astrometry in terms of a comparison with the Cramér–Rao lower variance bound. In this inference context the performance of the leastsquares estimator does not offer a closed-form expression, but a new result is presented (Theorem 1) where both the bias and the mean-square-error of the least-squares estimator are bounded and approximated analytically, in the latter case in terms of a nominal value and an interval around it. From the predicted nominal value, we analyze how efficient the least-squares estimator is in comparison with the minimum variance Cramér–Rao bound. Based on our results, we show that, for the high signal-to-noise...
Ce manuscrit est dédié à l’analyse de performances en traitement d’antenne pour l’estimation des par...
It is well-known that the noise associated with the collection of an astronomical image by a CCD cam...
Context. Accurate characterization of the astrometric errors in the forthcoming Gaia Catalogue will ...
Artículo de publicación ISIWe characterize the performance of the widely used least-squares estimato...
Context. Astrometry relies on the precise measurement of positions and motions of celestial objects....
Context. The best precision that can be achieved to estimate the location of a stellar-like object i...
Artículo de publicación ISI.In this paper, we use the Cramér-Rao lower uncertainty bound to estimate...
Least squares estimation is discussed from the point of view of a statistician. Much of the emphasis...
We discuss Least Squares (LS) image estimation for large data in the presence of electronic noise an...
We illustrate Cramer–Rao lower bounds (CRLBs) on the root-mean-square (RMS) error in estimating the ...
International audienceAims. We investigate the maximum astrometric precision that can be reached on ...
We consider an acquisition system where a continuous, band-limited image is reconstructed from a set...
An algorithm is presented to obtain the total least squares (TLS) estimates of the motion parameters...
Accurate characterization of the errors in the global astrometric solution for Gaia is ess...
Abstract. It is well-known that the noise associated with the collection of an astronomical image by...
Ce manuscrit est dédié à l’analyse de performances en traitement d’antenne pour l’estimation des par...
It is well-known that the noise associated with the collection of an astronomical image by a CCD cam...
Context. Accurate characterization of the astrometric errors in the forthcoming Gaia Catalogue will ...
Artículo de publicación ISIWe characterize the performance of the widely used least-squares estimato...
Context. Astrometry relies on the precise measurement of positions and motions of celestial objects....
Context. The best precision that can be achieved to estimate the location of a stellar-like object i...
Artículo de publicación ISI.In this paper, we use the Cramér-Rao lower uncertainty bound to estimate...
Least squares estimation is discussed from the point of view of a statistician. Much of the emphasis...
We discuss Least Squares (LS) image estimation for large data in the presence of electronic noise an...
We illustrate Cramer–Rao lower bounds (CRLBs) on the root-mean-square (RMS) error in estimating the ...
International audienceAims. We investigate the maximum astrometric precision that can be reached on ...
We consider an acquisition system where a continuous, band-limited image is reconstructed from a set...
An algorithm is presented to obtain the total least squares (TLS) estimates of the motion parameters...
Accurate characterization of the errors in the global astrometric solution for Gaia is ess...
Abstract. It is well-known that the noise associated with the collection of an astronomical image by...
Ce manuscrit est dédié à l’analyse de performances en traitement d’antenne pour l’estimation des par...
It is well-known that the noise associated with the collection of an astronomical image by a CCD cam...
Context. Accurate characterization of the astrometric errors in the forthcoming Gaia Catalogue will ...