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Image Reconstruction

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Title: Image Reconstruction

1
Image Reconstruction

T-61.182, Biomedical Image Analysis
Seminar Presentation 7.4.2005
Seppo Mattila Mika Pollari

2
Overview

Reconstruction from projections (general)
projection geometry and radon transform
Reconstruction methods
Backprojection, (Fourier slice theorem), Filtered
Backprojection, and Algebraic Reconstruction
Technique
Reconstruction examples
MRI reconstruction
examples

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Introduction

Only photography (reflection) and planar x-ray
(attenuation) measure spatial properties of the
imaged object directly.
Otherwise, measured parameters are some how
related to spatial properties of imaged object.
US (amplitude and time), CT, SPECT and PET
(integral projections of parallel rays), MRI
(amplitude, frequency and phase of the NMR
signal) etc...
Construct the object (image) which creates the
measured parameters.

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Reconstruction From the Projections

Projection is a line integral along the path
CT measure the projections of passed photons,
with different angles.
MRI measure projection of NMR signal with
different magnetic gradients (projection based
MRI not used anymore).
Assumption no notable diffraction.

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Projection Geometry and Radon Transformation

Co-ordinate transformation
Radon transformation

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Backprojection (BP)

Simplest reconstruction method Integrate all
possible rays that pass through the same point.
Cause smearing and blurring. Method has nowadays
only historical importance.

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Backprojection Graphically
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FBP ramp vs. smooth filter
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FST and FBP

Starting from FST we end up to FBP without any
approximations or assumptions

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Remarks of FBP

From the previous equations its clear that the
image is backprojection of filtered signal (
) and (w) is the ramp filter.
FBP advantages
Each projection may be filtered and backprojected
while further projections are collected (on-line
processing).
No need for 2D inverse Fourier transformation.

17
Algebraic Reconstruction Techniques (ART)

Each object entity (image pixel/voxel) has
physical property (grey-level value) such as
attenuation coefficient
All pixel in the rays path contribute to sum an
amount which equals pixels area along the path
(weight) times pixels physical property
(grey-level value)
We end up set of simultaneous equations

18
ART Model

Each ray sum
Set of simultaneous equations

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Kaczmarz Method Solution to ART

Each equation spans a hyperplane in n-dimensional
space. If unique solution exist it is in
intersection of the hyperplanes
Solution is found iteratively by solving each ray
equation at the time

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Reconstruction Examples Number of Projection
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Reconstruction Examples Projection Angle
BP
FBP (Butter)
ART
PSF
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Reconstruction Examples BP, FBP, and ART
Phantom
BP
FBP (Butter)
ART
Reconstruction of phantom with different
reconstruction methods using 90 projections from
interval 0-180 degree
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Display of CT Images Using Hounsfield Units

Attenuation coefficients are normalized with
respect of water
Now mean and SD of of different tissues are known
advanced (measured in HU)

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MRI Reconstruction
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MRI Signal
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Reconstruction Examples
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Effects of Sampling the K-space
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Summary I