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Optimal recovery of 3D X-ray tomographic data via shearlet decomposition
Authors:Kanghui Guo  Demetrio Labate
Institution:1. Department of Mathematics, Missouri State University, Springfield, MO, 65804, USA
2. Department of Mathematics, University of Houston, Houston, TX, 77204, USA
Abstract:This paper introduces a new decomposition of the 3D X-ray transform based on the shearlet representation, a multiscale directional representation which is optimally efficient in handling 3D data containing edge singularities. Using this decomposition, we derive a highly effective reconstruction algorithm yielding a near-optimal rate of convergence in estimating piecewise smooth objects from 3D X-ray tomographic data which are corrupted by white Gaussian noise. This algorithm is achieved by applying a thresholding scheme on the 3D shearlet transform coefficients of the noisy data which, for a given noise level ε, can be tuned so that the estimator attains the essentially optimal mean square error rate O(log(ε ???1)ε 2/3), as ε→0. This is the first published result to achieve this type of error estimate, outperforming methods based on Wavelet-Vaguelettes decomposition and on SVD, which can only achieve MSE rates of O(ε 1/2) and O(ε 1/3), respectively.
Keywords:
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