Medicine & Life Sciences
Deep Learning
100%
Radiotherapy
68%
Cone-Beam Computed Tomography
34%
Organs at Risk
23%
Brachytherapy
21%
Radiosurgery
20%
Radiation
20%
Tomography
16%
Computer-Assisted Image Processing
16%
Datasets
15%
Neoplasms
14%
Prostatic Neoplasms
14%
Intensity-Modulated Radiotherapy
13%
Head and Neck Neoplasms
13%
Therapeutics
13%
Artificial Intelligence
12%
Photons
12%
Uncertainty
12%
Noise
12%
Machine Learning
12%
Workflow
12%
Learning
11%
Image-Guided Radiotherapy
11%
X-Rays
10%
Proton Therapy
10%
Feasibility Studies
9%
Breast
9%
Positron-Emission Tomography
9%
Uterine Cervical Neoplasms
8%
Protons
8%
Magnetic Resonance Imaging
7%
Psychology Reinforcement
7%
Artifacts
7%
Computer Neural Networks
7%
Radiation Oncology
7%
Water
6%
Liver
6%
Particle Accelerators
6%
Head
6%
Lung
6%
Neoplasm Metastasis
5%
Area Under Curve
5%
Animals
5%
Anatomy
5%
Technology
5%
Magnetic Resonance Spectroscopy
5%
Monte Carlo Method
5%
Tumor Burden
5%
Neck
5%
Acoustic Neuroma
5%
Prescriptions
5%
Brain
5%
Physicians
5%
Engineering & Materials Science
Radiotherapy
35%
Tomography
21%
Deep learning
17%
Tumors
15%
Planning
12%
Imaging techniques
12%
Image reconstruction
10%
Positron emission tomography
9%
Cones
9%
Photons
9%
Bioluminescence
8%
Phantoms
7%
Radiation
6%
Tissue
6%
X rays
6%
Irradiation
6%
Motion estimation
6%
Reinforcement learning
5%
Artificial intelligence
5%
Magnetic resonance
5%
Dosimetry
5%
Physics & Astronomy
radiation therapy
24%
dosage
15%
tomography
14%
planning
9%
therapy
8%
tumors
8%
artificial intelligence
8%
learning
7%
cones
7%
cancer
6%
animals
6%
liver
5%
bioluminescence
5%
irradiation
5%
swine
5%
delivery
5%