The reconstruction of objects from shadowgraphs with high contrasts

Herman, Gabor T.; Lakshminarayanan, A. V.; Rowland, Stuart W.

doi:10.1016/0031-3203(75)90001-1

Cited by 18 publications

(6 citation statements)

References 8 publications

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“…Basically, a FBP is a technique whereby projections or views from the raw data are first filtered then back-projected to form a 2-dimensional array of voxels that are assigned a shade of gray proportionate to the average x-ray photon distribution of each voxel. [1][2][3][4][5][6] This reconstruction technique, however, has significant limitations, because it relies on several assumptions. These assumptions include the following: (1) the focal spot comprises a single point at the surface of the anode, (2) the x-ray beam is modeled as a pencil-shaped ray passing through the object being scanned, (3) there is a point-like interaction of the x-ray beam with the voxel in the patient or object being scanned, and (4) there is a point-like interaction of the x-ray beam with the detector.…”

Section: Filtered Back Projectionmentioning

confidence: 99%

“…[7][8][9] Clinical situations in which image quality tends to be less acceptable include: (1) CT scans in large patients (Fig. 1); (2) images with small voxels, such as the targeted field-of-view used for cardiac CT; (3) images through the bony pelvis; and (4) intentionally low-dose datasets. An alternative to the FBP is an iterative reconstruction (IR) that uses a maximum likelihood (ML) algorithm.…”

Section: Introductionmentioning

confidence: 99%

“…Filtered back projection (FBP) algorithms are currently the most widespread implementation of this technique. [1][2][3][4][5][6] The main advantages of the FBP include reconstruction speeds of %30-40 slices per second, overall robustness, and relatively acceptable image quality for most cases. The main disadvantage of the FBP is the overall limitations in image quality, mainly because of the back-projection process and the necessary filtering, which accentuates noise and can result in streak artifacts.…”

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

New iterative reconstruction techniques for cardiovascular computed tomography: How do they work, and what are the advantages and disadvantages?

Nelson

Feuerlein

Boll

2011

Journal of Cardiovascular Computed Tomography

166

117

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Section: Filtered Back Projectionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

New iterative reconstruction techniques for cardiovascular computed tomography: How do they work, and what are the advantages and disadvantages?

Nelson

Feuerlein

Boll

2011

Journal of Cardiovascular Computed Tomography

166

117

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“…Some of the other papers mentioning similar methods for image reconstruction are [2,5,6,7,8,10]. Such algorithms are commonly referred to as 17'0 ART (algebraic reconstruction techniques).…”

Section: The Relaxation Methods and Its Convergencementioning

confidence: 98%

Iterative relaxation methods for image reconstruction

Herman¹,

Lent

Lutz³

1975

Proceedings of the 1975 Annual Conference on - ACM 75

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The problem of recovering an image (a function of two variables) from experimentally available integrals of its grayness over thin strips is of great importance in a large number of scientific areas.An important version of the problem in medicine is that of obtaining the exact density distribution within the human body from X-ray projections.One approach that has been taken to solve this problem consists of translating the available information into a system of linear inequalities.The size and the sparsity of the resulting system of inequalities (typically, 25,000 inequalities with less than 1% of the coefficients nonzero) makes methods using successive relaxations computationally attractive.A variety of such methods have been proposed with differing relaxation parameters.In this paper we show that for a consistent system of linear inequalities, any sequence of relaxation parameters lying strictly between zero and two generates a sequence of vectors which converges to a solution.Under the same assumptions, for a system of linear equations, the relaxation method converges to the minimum norm solution.Previously proposed techniques are shown to be special cases of our procedure with different choices of relaxation parameters.Thus, our results provide proofs of convergence for previously used algorithms where no such proofs existed before.We discuss the practical consequences for image reconstruction of the choice of the relaxation parameters.

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“…After scaling, the plots become near-identical, both exhibiting the rapidly oscillating noise-like error which is characteristic of filters derived from window functions having discontinuities at the cutoff frequency [3]. This ripple artifact or "ringing" is slightly more severe when the approximate filter is used, but it can be effectively suppressed by nonlinear smoothing of the reconstructed image [6]. The additional error due to approximation of the filter would appear to be tolerable in a wide variety of applications, especially those in which the quality of reconstruction is limited by noisy or inconsistent projection data.…”

Section: Computational Examplesmentioning

confidence: 99%

Ultra - Fast Convolution Approximations for Computerized Tomography

Lewitt

1979

IEEE Trans. Nucl. Sci.

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The amount of computation required to convolve projection data with a filter array may be reduced by implementing the required multiplications with reduced precision or by approximating the filter with a function which is piecewise constant over intervals several times longer than the projection sampling increment. We investigate an extreme form of the above approximations, for which multiplication by any filter element (except the central one) requires only a simple binary shift. Using this approximation, a projection of M samples may be filtered in an extremely straightforward manner using only M fullprecision multiplications, representing a significant advantage over convolution implementations using Fourier or number-theoretic transforms. Simulations are presented which show that in most cases only an insignificant amount of error in the reconstructed image results from the use of this form of convolution approximation.

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The reconstruction of objects from shadowgraphs with high contrasts

Cited by 18 publications

References 8 publications

New iterative reconstruction techniques for cardiovascular computed tomography: How do they work, and what are the advantages and disadvantages?

New iterative reconstruction techniques for cardiovascular computed tomography: How do they work, and what are the advantages and disadvantages?

Iterative relaxation methods for image reconstruction

Ultra - Fast Convolution Approximations for Computerized Tomography

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