Three-dimensional digital tomosynthesis
Iterative Reconstruction, Artifact Reduction and Alternative Acquisition Geometry
Authors
Parameters
More about the book
Yulia Levakhina gives an introduction to the major challenges of image reconstruction in Digital Tomosynthesis (DT), particularly to the connection of the reconstruction problem with the incompleteness of the DT dataset. The author discusses the factors which cause the formation of limited angle artifacts and proposes how to account for them in order to improve image quality and axial resolution of modern DT. The addressed methods include a weighted non-linear back projection scheme for algebraic reconstruction and novel dual-axis acquisition geometry. All discussed algorithms and methods are supplemented by detailed illustrations, hints for practical implementation, pseudo-code, simulation results and real patient case examples.
Book purchase
Three-dimensional digital tomosynthesis, Yulia Levakhina
- Language
- Released
- 2014
Payment methods
- Title
- Three-dimensional digital tomosynthesis
- Subtitle
- Iterative Reconstruction, Artifact Reduction and Alternative Acquisition Geometry
- Language
- English
- Authors
- Yulia Levakhina
- Publisher
- Springer Vieweg
- Publisher
- 2014
- ISBN10
- 3658056967
- ISBN13
- 9783658056964
- Category
- University and college textbooks
- Description
- Yulia Levakhina gives an introduction to the major challenges of image reconstruction in Digital Tomosynthesis (DT), particularly to the connection of the reconstruction problem with the incompleteness of the DT dataset. The author discusses the factors which cause the formation of limited angle artifacts and proposes how to account for them in order to improve image quality and axial resolution of modern DT. The addressed methods include a weighted non-linear back projection scheme for algebraic reconstruction and novel dual-axis acquisition geometry. All discussed algorithms and methods are supplemented by detailed illustrations, hints for practical implementation, pseudo-code, simulation results and real patient case examples.