Tomography is the theory behind scans, e.g. MRI-scans. Most common is continuous tomography where an object is reconstructed from numerous projections. In some cases this is not applicable, because the object changes too quickly or is damaged by making hundreds of projections (by X-rays). In such cases discrete tomography may apply where only few projections are made. The present paper shows how number theory helps to provide insight in the application and structure of discrete tomography
This thesis studies the reconstruction of integer-valued functions on subsets of the rectangular lat...
The new field of research of discrete tomography will be described in this paper. It differs from st...
Discrete tomography deals with image reconstruction of an object with finitely many gray levels (suc...
ew towards comparing discrete and continuous tomography. Some talks dealt with the computational com...
Tomography methods concentrate on reconstructing objects from multiple projections that are obtaine...
Discrete tomography deals with the reconstruction of finite sets from knowledge about their interact...
Discrete tomography (DT) is a special kind of tomography that can be applied if the object to be rec...
Discrete tomography is a particular case of computerized tomography that deals with the reconstructi...
Discrete Tomography (DT), differently from GT and CT, focuses on the case where only few specimen pr...
Tomography methods concentrate on reconstructing objects from multiple projections that are obtained...
This study presents an integer-only algorithm to exactly recover an image from its discrete projecte...
This paper introduces the topic of discrete tomography, briefly showing its main applications, algor...
High resolution transmission electron microscopy is commonly considered as the standard application ...
We consider the problem of distinguishing convex subsets of n-cyclotomic model sets Λ by (discrete p...
Discrete tomography focuses on the reconstruction of functions $f: A \to\mathbb{R}$ from their line ...
This thesis studies the reconstruction of integer-valued functions on subsets of the rectangular lat...
The new field of research of discrete tomography will be described in this paper. It differs from st...
Discrete tomography deals with image reconstruction of an object with finitely many gray levels (suc...
ew towards comparing discrete and continuous tomography. Some talks dealt with the computational com...
Tomography methods concentrate on reconstructing objects from multiple projections that are obtaine...
Discrete tomography deals with the reconstruction of finite sets from knowledge about their interact...
Discrete tomography (DT) is a special kind of tomography that can be applied if the object to be rec...
Discrete tomography is a particular case of computerized tomography that deals with the reconstructi...
Discrete Tomography (DT), differently from GT and CT, focuses on the case where only few specimen pr...
Tomography methods concentrate on reconstructing objects from multiple projections that are obtained...
This study presents an integer-only algorithm to exactly recover an image from its discrete projecte...
This paper introduces the topic of discrete tomography, briefly showing its main applications, algor...
High resolution transmission electron microscopy is commonly considered as the standard application ...
We consider the problem of distinguishing convex subsets of n-cyclotomic model sets Λ by (discrete p...
Discrete tomography focuses on the reconstruction of functions $f: A \to\mathbb{R}$ from their line ...
This thesis studies the reconstruction of integer-valued functions on subsets of the rectangular lat...
The new field of research of discrete tomography will be described in this paper. It differs from st...
Discrete tomography deals with image reconstruction of an object with finitely many gray levels (suc...