The observer SNR penalty for reconstructions from projections

@article{Wagner1984TheOS,
  title={The observer SNR penalty for reconstructions from projections},
  author={Robert F. Wagner and D. G. Brown and Arthur E. Burgess and Kenneth M. Hanson},
  journal={Magnetic Resonance in Medicine},
  year={1984},
  volume={1}
}
Optimization of the efficiency of information collection in medical imaging requires simultaneous consideration of a number of factors, of which some are obvious, others subtle (1, 2). The factors taken singly seem to have little significance, whereas in concert they often lead to possibilities of more than an order of magnitude improvement in imaging efficiency, i.e., signal-to-noise ratio (SNR) squared per unit exposure or per unit exposure time. The purpose of this note is to point out one… 
View on Wiley
kmh-lanl.hansonhub.com
8 Citations
Background Citations
2

8 Citations

Citation Type

Citation Type

Unified snr analysis of medical imaging systems.
TLDR
The ideal observer signal to noise ratio (snr) provides an absolute scale for image system performance assessment and leads to instrumentation design goals and constraints for imaging system optimisation since no observer can surpass the performance of the ideal observer.
More Unified Analysis Of Medical Imaging System SNR Characteristics
The ideal observer signal-to-noise ratio has been derived from statistical decision theory for all of the major medical imaging modalities. This yields an absolute scale for image performance
Performance-based assessment of reconstructed images
TLDR
The ramifications of the principle that the quality of an image should be assessed on the basis of how well it facilitates the performance of appropriate visual tasks are explored, and algorithms used to reconstruct scenes from incomplete and/or noisy projection data are applied.
Performance-based assessment of reconstructed images
  • K. Hanson
  • Computer Science
    Medical Imaging
  • 2009
TLDR
The ramifications of the principle that the quality of an image should be assessed on the basis of how well it facilitates the performance of appropriate visual tasks are explored, and algorithms used to reconstruct scenes from incomplete and/or noisy projection data are applied.
Rapid Fourier imaging using steady‐state free precession
TLDR
Reversal of the read gradient in a SSFP imaging experiment allows a full spin echo to be collected in the interval τ between successive rf pulses enabling 2D or 3D Fourier techniques.
K‐space filter deconvolution and flip angle self‐calibration in 2D radial hyperpolarised 3He lung MRI
TLDR
The inverse of the signal decay function was used to retrospectively deconvolve RF depolarisation k‐space filter effects and the method was demonstrated in 2D radial imaging in phantoms and human lungs, demonstrating a means of flip angle self‐calibration.
Chemical‐shift imaging using filtered back‐projection algorithms
A method of performing chemical‐shift imaging is described that avoids some of the disadvatages inherent in the techniques which use spin echos and phase encoding. A series of FIDs are recorded
Perception and Detection of Signals in Medical Images
TLDR
This paper will discuss the use of statistical decision theory concepts to understand both fundamental and human limits of decision accuracy, and the IDEAL OBSERVER concept will be emphasized.

References

SHOWING 1-10 OF 24 REFERENCES
A Comparison of the Noise Characteristics of Projection Reconstruction and Two-Dimensional Fourier Transformations in NMR Imaging
Human images of excellent quality have been obtained with Nuclear Magnetic Resonance (NMR), using two different techniques: projection reconstruction (PR) and two-dimensional Fourier transformations
Application of information theory to the assessment of computed tomography.
TLDR
Examples are drawn from first and second generation CT, demonstrating that thye are nearly quantum limited for large signals, indicating how their algorithms are matched or mismatched to the geometry, and calculating the contrast-detail diagrams for those decision makers.
Detectability in computed tomographic images.
TLDR
A measure of the efficiency of scanner dose utilization is proposed which compares the average dose to that required by an ideal scanner to obtain the same NEQ.
Clinical and experimental investigation of a smoothed CT reconstruction algorithm.
TLDR
The usefulness of a smoothed reconstruction CT algorithm was studied using raw data from the EMI Mark I head scanner, and clinical results showed greatly improved visualization of gray and white matter with no increase in dose.
Absolute measures of physical image quality: measurement and application to radiographic magnification.
TLDR
Noise equivalent apertures defined in terms of MTF were larger than analogous apertURES defined in Terms of NEQ for these screen–film systems, suggesting that, for a specific imaging task, these systems introduce more degradation in image quality due to loss of contrast than to Loss of signal‐to‐noise ratio (SNR).
Spin warp NMR imaging and applications to human whole-body imaging.
TLDR
A new nuclear magnetic resonance (NMR) imaging technique which the authors call 'spin warp imaging' is described and examples of its application to human whole-body imaging are given.
Efficiency of human visual signal discrimination.
We have measured the overall statistical efficiency of human subjects discriminating the amplitude of visual pattern signals added to noisy backgrounds. By changing the noise amplitude, the amount of
Radiology
TLDR
The Mount Fuji sign, described as CT finding of bilateral subdural hypo-attenuating collections causing compression and separation of the frontal lobes can be useful in distinguishing the two tension pneumocephalus, which can have significant clinical consequences.
On the Optimality of the Filtered Backprojection Algorithm
  • K. Hanson
  • Mathematics
    Journal of computer assisted tomography
  • 1980
Abstract It is shown that under certain conditions the filtered backprojection algorithm produces a computed tomographic reconstruction for which the statistical accuracy attainable in the amplitude
Med. Phys.Abstract)
  • Med. Phys.Abstract)
  • 1983
...
1
2
3
...