zooming tomography in x-ray ct
DESCRIPTION
Zooming tomography in X-Ray CT. Benjamin Yvernault. Summary. The problem Context of the study Solution 1 : supplement of the s inogram Solution 2 : subtraction of sinograms Results In 3D. The Problem :. Acquisition of the data :. Blue : object - PowerPoint PPT PresentationTRANSCRIPT
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Zooming tomography in X-Ray CT
Benjamin Yvernault
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1. The problem2. Context of the study3. Solution 1 : supplement of the sinogram4. Solution 2 : subtraction of sinograms5. Results6. In 3D
Summary
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The Problem :
Acquisition of the data :
Blue : objectRed : low resolution (lines integrals/source position/trajectory)Green : high resolution (lines integrals/source position/trajectory)Black : detector
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Data LR -> not truncated but low resolution
Data HR -> better resolution but truncated
Question : How to reconstruct the object with a better resolution using the BR and HR truncated
data?
The Problem (2) :
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In 2D
Using MATLAB
Fan-beam geometry ( equi-spaced intervals )
Acquisition of the data «low resolution » (LR) and « high resolution » (HR)
Context of the Study
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The Goal :Complete the sinogram HR by estimation of the line
integrals with the reconstruction of the object in LR
Solution 1 : supplement of the sinogram
Blue : objectRed line : low resolution (lines integrals/source position/trajectory)Green : high resolution (lines integrals/source position/trajectory/supplement on the detector)Black : detector
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The Goal :Estimate the sinogram HR from the object (where you take off
the part of the object which can be reconstruct in HR) and subtract it to the HR sinogram
Solution 2 : subtraction of sinograms (1)
Blue : objectRed line : low resolution (lines integrals/source position/trajectory)Green : high resolution (lines integrals/source position/trajectory)Black : detector
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Solution 2 : subtraction of sinograms (2)
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Parameters :
D = focalR_LR = distance source - object LR / R_HR = distance source - object HRr = radius of the objectnS = number of pixels on the detectornβ = number of projectionsx*y, nx*ny = parameters for the reconstruction of the object
Results : Parameters
D R_LR R_HR r ns nβ x*y Nx*Ny
9 6 3 0.8 64 128 1.05r*1.05r
256*256
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Method 1 : Data
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Method 1 : Sinograms HR
Error = | Sinogram theoretical – Sinogram supplement|
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Method 1 : Reconstructions
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Method 1 : Plans
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Method 2 : Data
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Method 2 : Sinograms HR
Error = | Sinogram theoretical – Sinogram supplement|
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Method 2 : Reconstructions
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In 3D : Data
Low resolution High resolution
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In 3D : Sinograms
Method supplement Method subtract
Error = | Sinogram theoretical – Sinogram supplement/subtract|
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In 3D : Reconstruction using the subtract’s method
Theoretical Subtract
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If you have any questions?
Thank you for your attention!