CT image reconstruction from fan‐parallel data

Besson, G.

doi:10.1118/1.598533

Cited by 27 publications

(24 citation statements)

References 21 publications

(19 reference statements)

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“…19 and 20 and several approaches to reduce the nonstationarity were proposed in Refs. [21][22][23]. The NPS of a cone beam CT system was studied in Refs.…”

Section: Introductionmentioning

confidence: 99%

The noise power spectrum in CT with direct fan beam reconstruction

Baek

Pelc

2010

Medical Physics

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The noise power spectrum ͑NPS͒ is a useful metric for understanding the noise content in images. To examine some unique properties of the NPS of fan beam CT, the authors derived an analytical expression for the NPS of fan beam CT and validated it with computer simulations. The nonstationary noise behavior of fan beam CT was examined by analyzing local regions and the entire field-of-view ͑FOV͒. This was performed for cases with uniform as well as nonuniform noise across the detector cells and across views. The simulated NPS from the entire FOV and local regions showed good agreement with the analytically derived NPS. The analysis shows that whereas the NPS of a large FOV in parallel beam CT ͑using a ramp filter͒ is proportional to frequency, the NPS with direct fan beam FBP reconstruction shows a high frequency roll off. Even in small regions, the fan beam NPS can show a sharp transition ͑discontinuity͒ at high frequencies. These effects are due to the variable magnification and therefore are more pronounced as the fan angle increases. For cases with nonuniform noise, the NPS can show the directional dependence and additional effects.

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“…19 and 20 and several approaches to reduce the nonstationarity were proposed in Refs. [21][22][23]. The NPS of a cone beam CT system was studied in Refs.…”

Section: Introductionmentioning

confidence: 99%

The noise power spectrum in CT with direct fan beam reconstruction

Baek

Pelc

2010

Medical Physics

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“…In order to maintain image quality, the rebinning in the proposed method is different from that given by Ref. [17]. Not only the data p(β i , γ j ) but the interpolated data p d (β 1,z=z0 (n), γ j , n) are used for the linear interpolation for g(θ l , t j ) as given by…”

Section: Parallel Rebinningmentioning

confidence: 99%

“…(4) and (5), we can perform rebinning from sampled fan-beam projections p(β i , γ j ) to parallel projections. In general, the rebinning process can be separated into the following two steps: first, data are interpolated in the azimuth to obtain samples on radial lines that are arranged at equiangular intervals [17] ; second, a radial interpolation is performed to obtain equidistant samples on the radial lines. Let β 1,z=z0 (n) and β 2,z=z0 (γ j , n) be, respectively, the view angles when z d (β, n) and z c (β, γ j , n) equal to z 0 , and g(θ l , t j ) be the equiangular sampled parallel projections, where t j corresponds to γ j by Eq.…”

Section: Parallel Rebinningmentioning

confidence: 99%

Improvement of efficiency and flexibility in multi-slice helical CT

Sun

Chen

Zhuang

2008

J. Shanghai Jiaotong Univ. (Sci.)

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One of the main aspects in computed tomography (CT) development is to make CT rapidly scan a large longitudinal volume with high z-axis resolution. The combination of helical scanning with multi-slice CT is a promising approach. Image reconstruction in multi-slice CT becomes, therefore, the major challenge. Known algorithms need to derive the complementary data or work only for certain range of pitches. A reconstruction algorithm was presented that works with the direct data as well as arbitrary pitches. Filter interpolation based on the proposed method was implemented easy. The results of computer simulations under kinds of conditions for four-slice CT were presented. The proposed method can obtain higher efficiency than the conventional method.

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“…(8) reflects a nonuniform variance distribution across the FOV and this is believed due to the 1/L 2 term in the fFBP of Eq. (5) [3][4][5]. A solution was given by the use of shift-variant filtering in the frequency space to address the non-uniform variance distribution [6].…”

Section: Review Of Ffbp Reconstruction Algorithm and Variance Calculamentioning

confidence: 99%

“…The altered noise property from data to image would have an impact on clinical assessment [3], especially for quantitative regional analysis across the FOV. The observed non-uniform noise distribution in the reconstructed image from stationary noisy data is believed to be caused by the distance-dependent 1/L 2 factor in the fFBP reconstruction formula [3][4][5]. Pan et al [6] proposed a solution by a shift-variant means in the filtering step, while retaining the use of spatially-invariant linear interpolation in the backprojection step in the fFBP image reconstruction.…”

Section: Introductionmentioning

confidence: 99%

An alternative solution to the nonuniform noise propagation problem in fan‐beam FBP image reconstruction

Wang¹,

Lu²,

Li³

et al. 2005

Medical Physics

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It has been observed that the variances in reconstructed images from stationary noisy projection data by fan-beam filtered backprojection (fFBP) algorithm with ramp in the filtering step and linear interpolation in the backprojection step are non-uniform across the field-of-view. This is believed to be caused by the distance-dependent 1/L 2 factor in the fFBP reconstruction formula. Shift-variant filtration approach in the filtering step has been investigated to address the non-uniform noise propagation problem in fFBP. In this work, we present an alternative solution by the use of spatiallyvariant weighting, instead of spatially-invariant interpolation, in the backprojection step, while remaining the homogeneous ramp filtering. Both theoretically-predicted and empirically-determined results concur and demonstrate the effectiveness of the presented alternative solution.

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CT image reconstruction from fan‐parallel data

Cited by 27 publications

References 21 publications

The noise power spectrum in CT with direct fan beam reconstruction

The noise power spectrum in CT with direct fan beam reconstruction

Improvement of efficiency and flexibility in multi-slice helical CT

An alternative solution to the nonuniform noise propagation problem in fan‐beam FBP image reconstruction

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