Abstract
We propose a new class of nonlocal Total Variation (TV), in which the first derivative and the second derivative are mixed. Since most existing TV considers only the first-order derivative, it suffers from problems such as staircase artifacts and loss in smooth intensity changes for textures and low-contrast objects, which is a major limitation in improving image quality. The proposed nonlocal TV combines the first and second order derivatives to preserve smooth intensity changes well. Furthermore, to accelerate the iterative algorithm to minimize the cost function using the proposed nonlocal TV, we propose a proximal splitting based on Passty’s framework. We demonstrate that the proposed nonlocal TV method achieves adequate image quality both in sparse-view CT and low-dose CT, through simulation studies using a brain CT image with a very narrow contrast range for which it is rather difficult to preserve smooth intensity changes.
Highlights
Nonlocal Total Variation (TV) [1,2,3,4,5,6] was proposed as an improved version of ordinary TV
We demonstrate that the proposed nonlocal TV method achieves adequate image quality within a small number of iterations
Simulation studies were performed for both the sparse-view CT and the low-dose CT
Summary
Nonlocal Total Variation (TV) [1,2,3,4,5,6] was proposed as an improved version of ordinary TV. TV can use a weighting function (e.g., the weight of nonlocal means filter) by taking the intensity difference between the pixel pair into account, and can obtain higher image quality than the ordinary. Osher (2009) [5] proposed nonlocal operator, nonlocal TV has been widely applied to image reconstruction problems in sparse-view CT and low-dose CT [1,2,3,4]. H. Kim et al (2016) [2] applied nonlocal TV to sparse-view CT and showed that nonlocal TV improves image quality over ordinary TV and incorporating the reweighted L1 norm into nonlocal TV further improves tissue contrast and structural details. Kim et al (2017) [3] applied nonlocal TV to low-dose CT and showed nonlocal TV is effective for low-dose noise (Poisson noise)
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