Scatter Compensation in Digital Chest Radiography Using Fourier Deconvolution
- 1 January 1989
- journal article
- research article
- Published by Wolters Kluwer Health in Investigative Radiology
- Vol. 24 (1) , 30-33
- https://doi.org/10.1097/00004424-198901000-00008
Abstract
The authors present a numerical deconvolution technique to compensate for image degrading effects caused by scattered photons in radiographic chest images. Fourier transform techniques are used to deconvolve a shift invariant model of the two dimensional point spread response functions of the scattered radiation. This approach uses a digitized radiograph acquired with a standard chest imaging protocol, so no specialized imaging equipment is required. While the shift variant shape of the scatter model is optimized for the lung field, effective compensation is provided when this model shape is applied to other chest regions. Preliminary evaluation suggests that this technique can provide improved image contrast over the entire chest region.Keywords
This publication has 12 references indexed in Scilit:
- Monte Carlo studies of x-ray scattering in transmission diagnostic radiologyMedical Physics, 1986
- Scatter rejection by electronic collimationMedical Physics, 1986
- Digital Separation of Primary and Scatter Components of Chest RadiographsInvestigative Radiology, 1985
- Scatter rejection by air gaps: An empirical modelMedical Physics, 1985
- Removal of image intensifier veiling glare by mathematical deconvolution techniquesMedical Physics, 1985
- DECONVOLUTION OF COMPTON SCATTER IN SPECT1985
- A scanning system for chest radiography with regional exposure control: Practical implementationMedical Physics, 1983
- A scanning system for chest radiography with regional exposure control: Theoretical considerationsMedical Physics, 1983
- A technique of scatter and glare correction for videodensitometric studies in digital subtraction videoangiography.Radiology, 1982
- Scattered radiation in chest radiographyMedical Physics, 1981