Keyphrases
Statistical Estimation
100%
Total-body PET/CT
100%
Task-oriented
100%
Parametric Imaging
100%
Acquisition Protocols
66%
Patlak
66%
Multi-bed
66%
Whole-body
50%
Dynamic PET
50%
Standardized Uptake Value
50%
Contrast-to-noise Ratio
50%
Task Performance
33%
Mean Squared Error
33%
Bed Dynamics
33%
Ordinary Least Squares
33%
Hybrid Regression
33%
Tumor
16%
Oncology
16%
Treatment Response
16%
Linear Regression
16%
High Contrast
16%
PET Imaging
16%
Quantitative Estimation
16%
Imaging Methods
16%
Correlation Coefficient
16%
Volume of Distribution
16%
Tracer Uptake
16%
Preclinical Imaging
16%
Monte Carlo Simulation
16%
18F-fluorodeoxyglucose (18F-FDG)
16%
Unified Framework
16%
Tracer Kinetics
16%
Axial Field
16%
Large Reduction
16%
Kinetic Parameters
16%
Specific Task
16%
Clinical Oncology
16%
Quantitative PET
16%
Uptake Rate
16%
Blood Distribution
16%
Linear Analysis
16%
Imaging Domain
16%
Bed Position
16%
Parametric Image
16%
Quantitative Parameters
16%
Tumor Detection
16%
Dynamic Acquisition
16%
Value-based Approach
16%
Statistical Estimation Methods
16%
Estimation Framework
16%
Performance Optimization
16%
Total Blood
16%
Performance Criteria
16%
Ordinary Least Squares Regression
16%
Tumor Quantification
16%
Dynamic Tracking
16%
Dynamic Frames
16%
Clinical Adoption
16%
Tracer Distribution
16%
Medicine and Dentistry
Whole Body PET
100%
Polyethylene Terephthalate
100%
Neoplasm
75%
Radioactive Tracer
75%
Standardized Uptake Value
75%
Least Squares Method
75%
Positron Emission Tomography
50%
Linear Regression Analysis
25%
Treatment Response
25%
Oncology
25%
Fluorine-18
25%
Clinical Imaging
25%
Task Performance
25%
Volume of Distribution
25%
Deoxyglucose
25%
Clinical Oncology
25%
Uptake Rates
25%
Monte Carlo Method
25%
Quantitative Parameter
25%
Performance Optimization
25%
Computer Science
Least Squares Method
100%
Statistical Estimation
100%
positron emission tomographic scan
66%
Image Analysis
33%
Unified Framework
33%
Estimation Method
33%
Linear Analysis
33%
Reference Value
33%
Performance Criterion
33%
Driven Framework
33%
Performance Optimization
33%
Monte Carlo Simulation
33%
Task Performance
33%
Tumor Detection
33%
Kinetic Parameter
33%
Engineering
Noise Ratio
100%
Least Squares Method
100%
Mean Square Error
66%
Image Analysis
33%
Kinetic Parameter
33%
Performance Criterion
33%
Square Regression
33%
Linear Analysis
33%
Reference Value
33%
Chemistry
Inhibition Constant (Ki)
100%
Monte Carlo Method
33%
Pharmacokinetics
33%
Deoxyglucose
33%
2-Deoxy-D-Glucose
33%
Neuroscience
Positron Emission Tomography
100%
Positron Emission Tomography
28%
Fluorine-18
14%
2-Deoxy-D-Glucose
14%
Uptake Rates
14%
Monte Carlo Method
14%