Radio astronomy is transitioning to a big-data era due to the emerging generation of radio interferometric (RI) telescopes, such as the Square Kilometre Array (SKA), which will acquire massive volumes of data. In this article we review methods proposed recently to resolve the ill-posed inverse problem of imaging the raw visibilities acquired by RI telescopes in the big-data scenario. We focus on the recently proposed online reconstruction method [4] and the considerable savings in data storage requirements and computational cost that it yields.</p
For the next generation of radio interferometric telescopes it is of paramount importance to incorpo...
We propose and assess the performance of new imaging techniques for radio interferometry that rely o...
For the next generation of radio interferometric telescopes it is of paramount importance to incorpo...
The emerging generation of radio interferometric (RI) telescopes, such as the SquareKilometre Array ...
Current and future radio telescopes, in particular the Square Kilometre Array (SKA), are envisaged t...
The problem of image reconstruction in radio interferometry is traditionally solved through the appl...
Fundamental scientific questions such as how the first stars were formed or how the universe came in...
This thesis is concerned with accurate imaging from radio interferometry data and with subsequent an...
International audienceCurrent and future radio interferometric arrays such as LOFAR and SKA are char...
International audienceABSTRACT In the era of big data, radio astronomical image reconstruction algor...
Next generation radio interferometric telescopes are entering an era of big data with extremely larg...
Next-generation radio interferometers, such as the Square Kilometre Array (SKA), will revolutionise ...
Upcoming radio telescopes such as the Square Kilometre Array (SKA) will provide sheer amounts of da...
Astronomy is one of the oldest sciences known to humanity. We have been studying celestial objects f...
Radio interferometry is a powerful technique for astronomical imaging. The theory of Compressed Sens...
For the next generation of radio interferometric telescopes it is of paramount importance to incorpo...
We propose and assess the performance of new imaging techniques for radio interferometry that rely o...
For the next generation of radio interferometric telescopes it is of paramount importance to incorpo...
The emerging generation of radio interferometric (RI) telescopes, such as the SquareKilometre Array ...
Current and future radio telescopes, in particular the Square Kilometre Array (SKA), are envisaged t...
The problem of image reconstruction in radio interferometry is traditionally solved through the appl...
Fundamental scientific questions such as how the first stars were formed or how the universe came in...
This thesis is concerned with accurate imaging from radio interferometry data and with subsequent an...
International audienceCurrent and future radio interferometric arrays such as LOFAR and SKA are char...
International audienceABSTRACT In the era of big data, radio astronomical image reconstruction algor...
Next generation radio interferometric telescopes are entering an era of big data with extremely larg...
Next-generation radio interferometers, such as the Square Kilometre Array (SKA), will revolutionise ...
Upcoming radio telescopes such as the Square Kilometre Array (SKA) will provide sheer amounts of da...
Astronomy is one of the oldest sciences known to humanity. We have been studying celestial objects f...
Radio interferometry is a powerful technique for astronomical imaging. The theory of Compressed Sens...
For the next generation of radio interferometric telescopes it is of paramount importance to incorpo...
We propose and assess the performance of new imaging techniques for radio interferometry that rely o...
For the next generation of radio interferometric telescopes it is of paramount importance to incorpo...