INIS
nmr imaging
100%
optimization
100%
losses
100%
neural networks
100%
evaluation
57%
signal-to-noise ratio
57%
peaks
57%
data
57%
prediction
42%
errors
42%
performance
42%
computerized tomography
28%
comparative evaluations
28%
images
28%
cat scanning
28%
increasing
14%
patients
14%
metrics
14%
positron computed tomography
14%
attenuation
14%
ground truth
14%
radiotherapy
14%
ct scanning
14%
architecture
14%
investigations
14%
instability
14%
corrections
14%
planning
14%
validation
14%
bones
14%
Earth and Planetary Sciences
Analogy
100%
Loss
100%
Image
57%
Signal to Noise Ratios
57%
Evaluation
57%
Error
42%
Show
14%
Architecture
14%
Reconstruction
14%
Proving
14%
Investigation
14%
Correction
14%
Term
14%
Echo
14%
Difference
14%
Increasing
14%
Gradient
14%
Bone
14%
Model
14%
Training
14%
Stable
14%
Approach
14%
Fold
14%
Scanning
14%
Need
14%
Average
14%
Foci
14%
Medicine and Dentistry
Magnetic Resonance Imaging
100%
Signal-to-Noise Ratio
80%
Evaluation Study
80%
Image Quality
40%
Positron Emission Tomography - Magnetic Resonance Imaging
20%
Pelvis
20%
Attention
20%
Patient
20%
Cross-Validation
20%
Radiation Therapy Planning
20%
Cortical Bone
20%
Computer Science
Convolutional Neural Network
100%
peak signal to noise ratio
66%
Mean Absolute Error
50%
Image Quality
33%
Perceptual Image
33%
Prediction Model
16%
Network Architecture
16%
Food Science
Magnetic Resonance Imaging
100%