A prior image constraint robust principal component analysis reconstruction method for sparse segmental multi-energy computed tomography

Abstract: Background: Multi-energy computed tomography (MECT) is a promising technique in medical imaging, especially for quantitative imaging. However, high technical requirements and system costs barrier its step into clinical practice. Methods:We propose a novel sparse segmental MECT (SSMECT) scheme and corresponding reconstruction method, which is a cost-efficient way to realize MECT on a conventional single-source CT.For the data acquisition, the X-ray source is controlled to maintain an energy within a segmental a… Show more

“…Recently, an x-ray flat panel detector (FPD) with more than one receptor, i.e. CsI:TI scintillator layer, has begun to attract a significant amount of research interest in medical cone-beam CT (CBCT) imaging applications (Wallace et al 2008, McCollough et al 2015, Garnett 2020, Li et al 2021. As the number of receptors increases, it becomes possible to differentiate the incident of x-ray photons by their energies.…”

Super-resolution dual-layer CBCT imaging with model-guided deep learning

“…Recently, an x-ray flat panel detector (FPD) with more than one receptor, i.e. CsI:TI scintillator layer, has begun to attract a significant amount of research interest in medical cone-beam CT (CBCT) imaging applications (Wallace et al 2008, McCollough et al 2015, Garnett 2020, Li et al 2021. As the number of receptors increases, it becomes possible to differentiate the incident of x-ray photons by their energies.…”

Super-resolution dual-layer CBCT imaging with model-guided deep learning

A Multienergy Computed Tomography Method Based on a Blind Decomposition Model for Multivoltage X-Ray Transmission Images