Discrete tomography determination of bounded sets in \(\mathbb{Z}^n\)
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Publication:2255815
DOI10.1016/j.dam.2014.01.016zbMath1319.68233OpenAlexW2050412019MaRDI QIDQ2255815
Paolo Dulio, Carla Peri, Sara Brunetti
Publication date: 18 February 2015
Published in: Discrete Applied Mathematics (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/j.dam.2014.01.016
Computing methodologies for image processing (68U10) Computer graphics; computational geometry (digital and algorithmic aspects) (68U05)
Related Items (4)
On bounded additivity in discrete tomography ⋮ Reconstruction of convex polyominoes with a blocking component ⋮ A geometrical characterization of regions of uniqueness and applications to discrete tomography ⋮ A rounding theorem for unique binary tomographic reconstruction
Cites Work
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- Discrete tomography determination of bounded lattice sets from four X-rays
- Convex decomposition of \(U\)-polygons
- Sets uniquely determined by projections on axes. II: Discrete case
- On the computational complexity of reconstructing lattice sets from their \(X\)-rays
- The discrete Radon transform and its approximate inversion via linear programming
- On the algorithmic inversion of the discrete Radon transform
- Determination of Q-convex sets by X-rays
- Discrete tomography and plane partitions
- On the geometric structure of lattice \(U\)-polygons
- Advances in discrete tomography and its applications. Some papers based on the presentations at the workshop on discrete tomography and its applications, New York, NY, USA, June 13--15, 2005.
- Algebraic aspects of discrete tomography
- Characterization of { − 1,0, + 1} Valued Functions in Discrete Tomography under Sets of Four Directions
- On Hammer's X-Ray Problem
- Uniqueness in Discrete Tomography: Three Remarks and a Corollary
- Unique reconstruction of bounded sets in discrete tomography
- Three-dimensional Statistical Data Security Problems
- Discrete tomography: Determination of finite sets by X-rays
- On the Non-additive Sets of Uniqueness in a Finite Grid
- On the computational complexity of reconstructing three-dimensional lattice sets from their two-dimensional \(X\)-rays
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