Facet-Based Regularization for Scalable Radio-Interferometric Imaging

Conference paper (2018)

Authors

S. Naghibzadeh Signal Processing Systems - EEMCS
Audrey Repetti Heriot-Watt University
A.J. van der Veen Signal Processing Systems - EEMCS
Yves Wiaux Heriot-Watt University
Research Group
Signal Processing Systems (EEMCS) (TU Delft)
Copyright: © 2018 S. Naghibzadeh, Audrey Repetti, A.J. van der Veen, Yves Wiaux
DOI: https://doi.org/10.23919/EUSIPCO.2018.8553515
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Published Date

2018

Language

English

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Faculty

Electrical Engineering, Mathematics and Computer Science

Department

Microelectronics

Research Group

Signal Processing Systems

Abstract

Current and future radio telescopes deal with large volumes of data and are expected to generate high resolution gigapixel-size images. The imaging problem in radio interferometry is highly ill-posed and the choice of prior model of the sky is of utmost importance to guarantee a reliable reconstruction. Traditionally, one or more regularization terms (e.g. sparsity and positivity) are applied for the complete image. However, radio sky images can often contain individual source facets in a large empty background. More precisely, we propose to divide radio images into source occupancy regions (facets) and apply relevant regularizing assumptions for each facet. Leveraging a stochastic primal dual algorithm, we show the potential merits of applying facet-based regularization on the radio-interferometric images which results in both computation time and memory requirement savings.

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