Radio Interferometry is an essential method for astronomical observations.
Self-calibration techniques have increased the quality of the radio
astronomical observations (and hence the science) by orders of magnitude.
Recently, there is a drive towards sensor arrays built using inexpensive
hardware and distributed over a wide area acting as radio interferometers.
Calibration of such arrays poses new problems in terms of computational cost as
well as in performance of existing calibration algorithms. We consider the
application of the Space Alternating Generalized Expectation Maximization
(SAGE) \cite{Fess94} algorithm for calibration of radio interferometric arrays.
Application to real data shows that this is an improvement over existing
calibration algorithms that are based on direct, deterministic non linear
optimization. As presented in this paper, we can improve the computational cost
as well as the quality of the calibration using this algorithm.Comment: 6 pages, 3 figures, Appearing in 13th IEEE DSP workshop (IEEE Signal
Processing Society