Keyphrases
Fluorescence Molecular Tomography
100%
Small Animal
72%
Electrocardiographic Imaging
72%
Split Bregman Algorithm
71%
Phantom
66%
Method of Fundamental Solutions
57%
Regularization Parameter
56%
Compressed Sensing
50%
U-curve
43%
Inverse Problem
42%
Curve Method
36%
Non-contact
36%
Singular Value Analysis
33%
Tikhonov Method
33%
Regularization Parameter Selection
33%
Algebraic Reconstruction
33%
Intracardiac
33%
Potential Map
33%
Torso
26%
Inverse Potential
25%
Image Reconstruction
23%
Discrete Picard Condition
23%
Catheter
23%
Total Variation
23%
Tikhonov Regularization
20%
Automatic Method
20%
Tikhonov
19%
Surface Potential
18%
Alignment Calibration
18%
Calibration Method
18%
Positron Emission Tomography-computed Tomography (PET-CT)
18%
Epicardial Potentials
18%
Set-valued Optimization Problem
16%
Dynamic Cardiac MRI
16%
Reconstruction Optimization
16%
Diffuse Optical Tomography
16%
Anisotropic Diffusion
16%
Prior Anatomical Information
16%
Material Decomposition
16%
Small Animal Positron Emission Tomography
16%
Adaptive Placement
16%
Pseudo-boundary
16%
Meshless
16%
Inverse Solver
16%
Normalized Data
16%
Iterative Solvers
16%
Quantification Errors
16%
Activation Mapping
16%
Dual-energy X-ray
16%
Dual Energy
16%
Engineering
Regularization
50%
Image Reconstruction
37%
Source Point
37%
Value Engineering
33%
Singular Value
33%
Regularization Parameter
33%
Compressed Sensing
33%
Registration Process
16%
Spatial Transformation
16%
Making Problem
16%
Nonnegativity
16%
Geometric Configuration
16%
Repeatability
16%
Computational Effort
16%
Operator Method
16%
Potential Source
16%
Homogeneous Medium
16%
Boundary Condition
16%
Joints (Structural Components)
16%
Optimal Placement
16%
Meshless Method
16%
Anisotropic Diffusion
16%
Energy Engineering
16%
Calibration Procedure
16%
Mesenchymal Stem Cell
16%
Total Variation
13%
Body Surface
13%
Fluorophore
13%
Spatial Distribution
12%
Reconstruction Problem
11%
Simulated Data
8%
Capillary Tube
8%
Limitations
8%
Surface Potential
8%
Absorptivity
8%
Absorption Coefficient
8%
Fluorescence Imaging
8%
Developed Country
8%
Computed Solution
8%
Fold Increase
8%
Measured Body
8%
Singular Value Decomposition
8%
Filtration
8%
Saddle Point
8%
Excitation Light
8%
Dirichlet Boundary Condition
8%
Imaging Performance
8%
Homogeneous Model
8%
Scattering Coefficient
8%
Registration Procedure
8%