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Literature DB >> 22532067

Review of a simple noise simulation technique in digital radiography.

Rie Tanaka¹, Katsuhiro Ichikawa, Kosuke Matsubara, Hiroki Kawashima.

Abstract

Reduction of exposure dose and improvement in image quality can be expected to result from advances in the performance of imaging detectors. A number of researchers have reported on methods for simulating reduced dose images. The simplest method provides reduced dose images by adding white Gaussian noise with a certain standard deviation to the original image. Our aim in this study was to develop and validate a system with a graphic user interface for simulating reduced dose images by a simple method. Here, we describe a technical approach with the use of a flat-panel detector system, and we validated the simulation performance in reducing the dose objectively and subjectively. In addition, the technical limitations and possible solutions to the simple method are suggested based on the validation results presented in this paper.

Mesh：

Year: 2012 PMID： 22532067 DOI： 10.1007/s12194-012-0152-7

Source DB: PubMed Journal: Radiol Phys Technol ISSN： 1865-0333

7 in total

1. A method for modifying the image quality parameters of digital radiographic images.

Authors: Robert S Saunders; Ehsan Samei
Journal: Med Phys Date: 2003-11 Impact factor: 4.071

2. CT colonography at different radiation dose levels: feasibility of dose reduction.

Authors: Rogier E van Gelder; Henk W Venema; Iwo W O Serlie; C Yung Nio; Rogier M Determann; Corinne A Tipker; Frans M Vos; Afina S Glas; Joep F W Bartelsman; Patrick M M Bossuyt; Johan S Laméris; Jaap Stoker
Journal: Radiology Date: 2002-07 Impact factor: 11.105

3. Evaluation of a flat panel digital radiographic system for low-dose portable imaging of neonates.

Authors: Ehsan Samei; Jeanne G Hill; G Donald Frey; W Michael Southgate; Eugene Mah; David Delong
Journal: Med Phys Date: 2003-04 Impact factor: 4.071

4. CT colonography: feasibility of substantial dose reduction--comparison of medium to very low doses in identical patients.

Authors: Rogier E van Gelder; Henk W Venema; Jasper Florie; C Yung Nio; Iwo W O Serlie; Michiel P Schutter; Jeroen C van Rijn; Frans M Vos; Afina S Glas; Patrick M M Bossuyt; Joep F W Bartelsman; Johan S Laméris; Jaap Stoker
Journal: Radiology Date: 2004-06-23 Impact factor: 11.105

2 in total

1. Development of a computer simulation technique for low-dose chest radiographs: a phantom study.

Authors: Rie Murakami; Shigehiko Katsuragawa
Journal: Radiol Phys Technol Date: 2020-02-05

2. Simulation approach for the evaluation of tracking accuracy in radiotherapy: a preliminary study.

Authors: Rie Tanaka; Katsuhiro Ichikawa; Shinichiro Mori; Sigeru Sanada
Journal: J Radiat Res Date: 2012-07-22 Impact factor: 2.724