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A Novel Intelligent Multiple Watermarking Schemes for the Protection of the Information Content of a Document Image Read chapter Read first chapter

2017 | OriginalPaper | Chapter

Reconstruction of Sparse-View Tomography via Banded Matrices

Authors : T. Prasad, P. U. Praveen Kumar, C. S. Sastry, P. V. Jampana

Published in: Computer Vision, Graphics, and Image Processing

Publisher: Springer International Publishing

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Abstract

Computed Tomography (CT) is one of the significant research areas in medical image analysis. One of the main aspects of CT that researchers remain focused, is on reducing the dosage as X-rays are generally harmful to human bodies. In order to reduce radiation dosage, compressed sensing (CS) based methodologies appear to be promising. The basic premise is that medical images have inherent sparsity in some transformation domain. As a result, CS provides the possibility of recovering a high quality image from fewer projection data. In general, the sensing matrix in CT is generated from Radon projections by appropriately sampling the radial and angular parameters. In our work, by restricting the number of such parameters, we generate an under-determined linear system involving projection (Radon) data and a sparse sensing matrix, bringing thereby the problem into CS framework.
Among various recent solvers, the Split-Bregman iterative scheme has of late become popular due to its suitability for solving a wide variety of optimization problems. Intending to exploit the underlying structure of sensing matrix, the present work analyzes its properties and finds a banded structure for an associated intermediate matrix. Using this observation, we simplify the Split-Bregman solver, proposing thereby a CT-specific solver of low complexity. We also provide the efficacy of proposed method empirically.

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Metadata
Title
Reconstruction of Sparse-View Tomography via Banded Matrices
Authors
T. Prasad
P. U. Praveen Kumar
C. S. Sastry
P. V. Jampana
Copyright Year
2017
Book
Computer Vision, Graphics, and Image Processing

Print ISBN: 978-3-319-68123-8

Electronic ISBN: 978-3-319-68124-5

Copyright Year: 2017

DOI
https://doi.org/10.1007/978-3-319-68124-5_18

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