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Estimation of multiple components and parameters for quantitative MRI
M.A. Nagtegaal
ImPhys/Computational Imaging
ImPhys/Vos group
Research output
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Dissertation (TU Delft)
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Dive into the research topics of 'Estimation of multiple components and parameters for quantitative MRI'. Together they form a unique fingerprint.
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INIS
nmr imaging
100%
tissues
100%
images
87%
brain
75%
water
75%
data
75%
comparative evaluations
62%
algorithms
62%
maps
50%
relaxation time
50%
errors
50%
myelin
50%
iterative methods
50%
cesium fluorides
37%
motion
37%
signals
37%
patients
25%
simulation
25%
range
25%
compartments
25%
magnetization
25%
control
12%
sequence analysis
12%
precision
12%
sheets
12%
trajectories
12%
reduction
12%
damage
12%
biomedical radiography
12%
spin echo
12%
diseases
12%
processing
12%
noise
12%
optimization
12%
information
12%
in vivo
12%
accuracy
12%
fine structure
12%
breakdown
12%
corrections
12%
constraints
12%
Mathematics
Magnetic Resonance Imaging
100%
Sequences
100%
Algorithm
83%
relaxation time τ
66%
Magnetization
33%
Voxel
33%
Wide Range
33%
Total Number
16%
Between-Subject Comparison
16%
Transient State
16%
Finer Structure
16%
Control
16%
Parameter
16%
Postprocessing
16%
Parameter Estimation
16%
Nonnegativity
16%
Precision
16%
Neuroscience
Magnetic Resonance Imaging
100%
Brain
100%
White Matter
66%
Myelin
66%
Magnetic Resonance Imaging
50%
Gray Matter
33%
Imaging Technique
16%
Cardiovascular System
16%
In Vivo
16%
Spin Echo
16%
Protein Sequencing
16%
Material Science
Magnetic Resonance Imaging
100%
Water
85%
Spin Echo
14%
Characterization
14%
Keyphrases
Component Reconstruction
7%
State Acquisition
7%
Mixed Estimation
7%
Clinical Insight
7%
White Matter Damage
7%
Retrospective Correction
7%
Longitudinal Comparison
7%
Engineering
Transverse Relaxation Time
11%