Analysis on the Strip-Based Projection Model for Discrete Tomography

Authors

Jiehua Zhu, Georgia Southern UniversityFollow
Xiezhang Li, Georgia Southern UniversityFollow
Yangbo Ye, University of Iowa
Ge Wang, Georgia Southern University

Document Type

Article

Publication Date

6-28-2008

Publication Title

Discrete Applied Mathematics

DOI

10.1016/j.dam.2007.10.011

ISSN

0166-218X

Abstract

Discrete tomography deals with image reconstruction of an object with finitely many gray levels (such as two). Different approaches are used to model the raw detector reading. The most popular models are line projection with a lattice of points and strip projection with a lattice of pixels/cells. The line-based projection model fits some applications but involves a major approximation since the x-ray beams of finite widths are simplified as line integrals. The strip-based projection model formulates projection equations according to the fractional areas of the intersection of each strip-shaped beam and the rectangular grid of an image to be reconstructed, so is more realistic in some applications. In this paper, we characterize the strip-based projection model and establish an equivalence between the system matrices generated by the strip-based and line-based projection models.

Recommended Citation

Zhu, Jiehua, Xiezhang Li, Yangbo Ye, Ge Wang. 2008. "Analysis on the Strip-Based Projection Model for Discrete Tomography." Discrete Applied Mathematics, 156 (12): 2359-2367. doi: 10.1016/j.dam.2007.10.011
https://digitalcommons.georgiasouthern.edu/math-sci-facpubs/93