MEM_GE: A New Maximum Entropy Method for Image Reconstruction from Solar X-Ray Visibilities

Massa, Paolo; Schwartz, R. A.; Tolbert, A. K.; Massone, Anna Maria; Dennis, B. R.; Piana, Michele; Benvenuto, Federico

doi:10.3847/1538-4357/ab8637

Cited by 34 publications

(37 citation statements)

References 18 publications

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“…In the present study we focused on solar hard X-ray imaging and, specifically, we cast our interpolation-based reconstruction scheme into the framework of the NASA RHESSI and the ESA STIX missions. RHESSI had its nominal phase between February 2002 and August 2018 and many inversion methods have been formulated to express its observations as images [36][37][38][39][40][41][42]. Instead, STIX will begin its nominal phase in September 2021 and the few studies devoted to its imaging process involve just synthetic data [40].…”

Section: Applications To Astronomical Imagingmentioning

confidence: 99%

“…RHESSI had its nominal phase between February 2002 and August 2018 and many inversion methods have been formulated to express its observations as images [36][37][38][39][40][41][42]. Instead, STIX will begin its nominal phase in September 2021 and the few studies devoted to its imaging process involve just synthetic data [40].…”

Section: Applications To Astronomical Imagingmentioning

confidence: 99%

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Feature augmentation for the inversion of the Fourier transform with limited data

Perracchione,

Massone,

Piana

2021

Preprint

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We investigate an interpolation/extrapolation method that, given scattered observations of the Fourier transform, approximates its inverse. The interpolation algorithm takes advantage of modelling the available data via a shapedriven interpolation based on Variably Scaled Kernels (VSKs), whose implementation is here tailored for inverse problems. The so-constructed interpolants are used as inputs for a standard iterative inversion scheme. After providing theoretical results concerning the spectrum of the VSK collocation matrix, we test the method on astrophysical imaging benchmarks.

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Section: Applications To Astronomical Imagingmentioning

confidence: 99%

Section: Applications To Astronomical Imagingmentioning

confidence: 99%

Feature augmentation for the inversion of the Fourier transform with limited data

Perracchione,

Massone,

Piana

2021

Preprint

Self Cite

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“…For a fully calibrated instrument, the image reconstruction problem for STIX is therefore the linear Fourier inver-sion problem from limited data that can be addressed by means of regularization methods, such as interpolation and extrapolation (Perracchione et al 2020), maximum entropy (Massa et al 2020), or compressed sensing (Duval-Poo et al 2018).…”

Section: Introductionmentioning

confidence: 99%

Imaging from STIX visibility amplitudes

Massa

Perracchione

Garbarino

et al. 2021

A&A

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Aims. This study is aimed at providing the first demonstration of STIX Fourier-transform X-ray imaging using semi-calibrated (amplitude-only) visibility data acquired during Solar Orbiter's cruise phase. Methods. We used a parametric imaging approach whereby STIX visibility amplitudes are fitted by means of two non-linear optimization methods: a fast meta-heuristic technique inspired by social behavior and a Bayesian Monte Carlo sampling method that, although slower, provides a better way of quantifying the uncertainties. Results. When applied to a set of solar flare visibility amplitudes recorded by STIX on November 18, 2020, the two parametric methods provide very coherent results. The analysis also demonstrates the ability of STIX to reconstruct data at a high time resolution and, from a spectral viewpoint, it shows the reliability of a double-source scenario that is consistent with a thermal versus nonthermal interpretation. Conclusions. In this preliminary analysis of STIX imaging based only on visibility amplitudes, we formulate the imaging problem as a non-linear parametric issue addressed by means of two high-performance optimization techniques that both show the ability to sample the parametric space in an effective fashion, thus avoiding any local minima.

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“…For a fully-calibrated instrument, the image reconstruction problem for STIX is therefore the linear Fourier inversion problem from limited data that can be addressed by means of regularization methods like interpolation/extrapolation (Perracchione et al, 2020), maximum entropy (Massa et al, 2020), or compressed sensing (Duval-Poo et al, 2018).…”

Section: Introductionmentioning

confidence: 99%

Imaging from STIX visibility amplitudes

Massa,

Perracchione,

Garbarino

et al. 2021

Preprint

Self Cite

View full text Add to dashboard Cite

Aims. To provide the first demonstration of STIX Fourier-transform X-ray imaging using semi-calibrated (amplitude-only) visibility data acquired during the Solar Orbiter's cruise phase. Methods. We use a parametric imaging approach by which STIX visibility amplitudes are fitted by means of two non-linear optimization methods: a fast meta-heuristic technique inspired by social behavior, and a Bayesian Monte Carlo sampling method, which, although slower, provides better quantification of uncertainties. Results. When applied to a set of solar flare visibility amplitudes recorded by STIX on November 18, 2020 the two parametric methods provide very coherent results. The analysis also demonstrates the ability of STIX to reconstruct high time resolution information and, from a spectral viewpoint, shows the reliability of a double-source scenario consistent with a thermal versus nonthermal interpretation. Conclusions. In this preliminary analysis of STIX imaging based only on visibility amplitudes, we formulate the imaging problem as a non-linear parametric issue we addressed by means of two high-performance optimization techniques that both showed the ability to sample the parametric space in an effective fashion, thus avoiding local minima.

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MEM_GE: A New Maximum Entropy Method for Image Reconstruction from Solar X-Ray Visibilities

Cited by 34 publications

References 18 publications

Feature augmentation for the inversion of the Fourier transform with limited data

Feature augmentation for the inversion of the Fourier transform with limited data

Imaging from STIX visibility amplitudes

Imaging from STIX visibility amplitudes

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