Add to ORKGImaging is considered the most compute-intensive and therefore most challenging part of a radio-astronomical data-processing pipeline. To reach the high dynamic ranges imposed by the high sensitivity and large field of view of the new generation of radio telescopes such as the Square Kilometre Array (SKA), we need to be able to correct for direction-independent effects (DIEs) such as the curvature of the earth as well as for direction-dependent time-varying effects (DDEs) such as those caused by the ionosphere during imaging. The novel Image-Domain gridding (IDG) algorithm was designed to avoid the performance bottlenecks of traditional imaging algorithms. We implement, optimize, and analyze the performance and energy efficiency of IDG on a...
ARTS is a new instrument designed to discover transient astronomical sources in the radio spectrum. ...
International audienceThe next generation of radio telescopes, such as the Square Kilometer Array (S...
Remote sensing is the acquisition of physical response from an object without touch or contact, ofte...
Radio telescopes produce large volumes of data that need to be processed to obtain high-resolution s...
International audienceBackward and forward interpolations on a Fourier grid are computationally expe...
In radio astronomy obtaining a high dynamic range in synthesis imaging of wide fields requires a cor...
With each new telescope that comes online, modern astronomy is ever moving towards a point where pro...
The challenge to fully exploit the potential of existing and upcoming scientific instruments like la...
Pulsar acceleration searches are methods for recovering signals from radio telescopes, that may othe...
Fundamental scientific questions such as how the first stars were formed or how the universe came in...
Current and future radio telescopes, in particular the Square Kilometre Array (SKA), are envisaged t...
Modern radio interferometer arrays are powerful tools for obtaining high resolution images of low fr...
Current attempts to make precision measurements of the HI power spectrum at high redshifts have led ...
ARTS is a new instrument designed to discover transient astronomical sources in the radio spectrum. ...
International audienceThe next generation of radio telescopes, such as the Square Kilometer Array (S...
Remote sensing is the acquisition of physical response from an object without touch or contact, ofte...
Radio telescopes produce large volumes of data that need to be processed to obtain high-resolution s...
International audienceBackward and forward interpolations on a Fourier grid are computationally expe...
In radio astronomy obtaining a high dynamic range in synthesis imaging of wide fields requires a cor...
With each new telescope that comes online, modern astronomy is ever moving towards a point where pro...
The challenge to fully exploit the potential of existing and upcoming scientific instruments like la...
Pulsar acceleration searches are methods for recovering signals from radio telescopes, that may othe...
Fundamental scientific questions such as how the first stars were formed or how the universe came in...
Current and future radio telescopes, in particular the Square Kilometre Array (SKA), are envisaged t...
Modern radio interferometer arrays are powerful tools for obtaining high resolution images of low fr...
Current attempts to make precision measurements of the HI power spectrum at high redshifts have led ...
ARTS is a new instrument designed to discover transient astronomical sources in the radio spectrum. ...
International audienceThe next generation of radio telescopes, such as the Square Kilometer Array (S...
Remote sensing is the acquisition of physical response from an object without touch or contact, ofte...