Image formation in radio astronomy is a large-scale inverse problem that is inherently illposed. We present a general algorithmic framework based on a Bayesian-inspired regularized maximum likelihood formulation of the radio astronomical imaging problem with a focus on diffuse emission recovery from limited noisy correlation data. The algorithm is dubbed PRIor-conditioned Fast Iterative Radio Astronomy and is based on a direct embodiment of the regularization operator into the system by right preconditioning. The resulting system is then solved using an iterative method based on projections onto Krylov subspaces. We motivate the use of a beam-formed image (which includes the classical 'dirty image') as an efficient prior-conditioner. Iterat...
Context. With the advent of visible and infrared long-baseline interferometers with more t...
Aims. Image formation for radio astronomy can be defined as estimating the spatial intensity distrib...
Next-generation radio interferometers, such as the Square Kilometre Array (SKA), will revolutionise ...
Image formation in radio astronomy is a large-scale inverse problem that is inherently illposed. We ...
We propose a fast iterative method for image formation in Radio Astronomy (RA). We formulate the ima...
Current and future radio telescopes deal with large volumes of data and are expected to generate hig...
Radio astronomy image formation can be treated as a linear inverse problem. However, due to physical...
This thesis is concerned with accurate imaging from radio interferometry data and with subsequent an...
The emerging generation of radio interferometric (RI) telescopes, such as the SquareKilometre Array ...
We propose a novel algorithm for image reconstruction in radio interferometry. The ill-posed inverse...
Fundamental scientific questions such as how the first stars were formed or how the universe came in...
We introduce a new class of iterative image reconstruction algorithms for radio interferometry, at t...
Image formation using the data from an array of sensors is a familiar problem in many fields such as...
In radio astronomy, signals from radio telescopes are transformed into images of observed celestial ...
The problem of image reconstruction in radio interferometry is traditionally solved through the appl...
Context. With the advent of visible and infrared long-baseline interferometers with more t...
Aims. Image formation for radio astronomy can be defined as estimating the spatial intensity distrib...
Next-generation radio interferometers, such as the Square Kilometre Array (SKA), will revolutionise ...
Image formation in radio astronomy is a large-scale inverse problem that is inherently illposed. We ...
We propose a fast iterative method for image formation in Radio Astronomy (RA). We formulate the ima...
Current and future radio telescopes deal with large volumes of data and are expected to generate hig...
Radio astronomy image formation can be treated as a linear inverse problem. However, due to physical...
This thesis is concerned with accurate imaging from radio interferometry data and with subsequent an...
The emerging generation of radio interferometric (RI) telescopes, such as the SquareKilometre Array ...
We propose a novel algorithm for image reconstruction in radio interferometry. The ill-posed inverse...
Fundamental scientific questions such as how the first stars were formed or how the universe came in...
We introduce a new class of iterative image reconstruction algorithms for radio interferometry, at t...
Image formation using the data from an array of sensors is a familiar problem in many fields such as...
In radio astronomy, signals from radio telescopes are transformed into images of observed celestial ...
The problem of image reconstruction in radio interferometry is traditionally solved through the appl...
Context. With the advent of visible and infrared long-baseline interferometers with more t...
Aims. Image formation for radio astronomy can be defined as estimating the spatial intensity distrib...
Next-generation radio interferometers, such as the Square Kilometre Array (SKA), will revolutionise ...