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| 1.0: | Methods |
| | 1.1: | Atlas-based methods |
| | 1.2: | Active contours and deformable models |
| | 1.3: | Classification methods |
| | 1.4: | Color and multispectral processing |
| | 1.5: | Compressive sampling and sensing |
| | 1.6: | Deconvolution methods |
| | 1.7: | Differential geometry |
| | 1.8: | Fuzzy methods |
| | 1.9: | Image coding and compression |
| | 1.10: | Image fusion |
| | 1.11: | Image quality assessment |
| | 1.12: | Image registration |
| | 1.13: | Image segmentation |
| | 1.14: | Image sequence processing |
| | 1.15: | Image storage and retrieval |
| | 1.16: | Inverse problem solving |
| | 1.17: | Knowledge modeling |
| | 1.18: | Learning-based methods |
| | 1.19: | Mathematical morphology |
| | 1.20: | Mesh construction and analysis |
| | 1.21: | Modeling of image formation |
| | 1.22: | Motion detection and tracking |
| | 1.23: | Multiresolution methods |
| | 1.24: | Optimization methods |
| | 1.25: | Partial differential equations and variational methods |
| | 1.26: | Probabilistic, statistical, and Monte-Carlo methods |
| | 1.27: | Restoration and enhancement |
| | 1.28: | Sampling and interpolation |
| | 1.29: | Shape modeling and analysis |
| | 1.30: | Super-resolution methods |
| | 1.31: | Tensor and vector field analysis |
| | 1.32: | Texture segmentation and analysis |
| | 1.33: | Tomographic reconstruction |
| | 1.34: | Visualization and display |
| |
| 2.0: | Modalities |
| | 2.1: | Microarrays |
| | 2.2: | Electron microscopy |
| | 2.3: | Light microscopy |
| | 2.4: | Fluorescence microscopy |
| | 2.5: | Confocal microscopy |
| | 2.6: | Multi-photon microscopy |
| | 2.7: | Super-resolution microscopy |
| | 2.8: | Intravital microscopy |
| | 2.9: | Optical coherence tomography |
| | 2.10: | Diffuse optical imaging |
| | 2.11: | Infrared imaging |
| | 2.12: | Multispectral and hyperspectral imaging |
| | 2.13: | Elastography imaging |
| | 2.14: | Magnetic resonance imaging |
| | 2.15: | Diffusion magnetic resonance imaging |
| | 2.16: | Functional magnetic resonance imaging |
| | 2.17: | Magnetic resonance spectroscopy |
| | 2.18: | Radiography and fluoroscopy |
| | 2.19: | X-ray computed tomography |
| | 2.20: | Ultrasound imaging |
| | 2.21: | Positron emission tomography |
| | 2.22: | Single photon emission computed tomography |
| | 2.23: | Small animal imaging |
| | 2.24: | Electroencephalography and magnetoencephalography |
| | 2.25: | Electrical impedance tomography |
| | 2.26: | Electrocardiography |
| |
| 3.0: | Applications |
| | 3.1: | Gene expression mapping |
| | 3.2: | Molecular and cellular screening |
| | 3.3: | In vivo cellular and molecular imaging |
| | 3.4: | Single molecule detection |
| | 3.5: | Brain imaging |
| | 3.6: | Musculoskeletal imaging |
| | 3.7: | Cardiac and vascular imaging |
| | 3.8: | Anatomical imaging |
| | 3.9: | Functional imaging |
| | 3.10: | Tractography |
| | 3.11: | Epidemiology |
| | 3.12: | Lung imaging |
| | 3.13: | Cancer imaging |
| | 3.14: | Physiological modeling |
| | 3.15: | Computational anatomy |
| | 3.16: | Image guided surgery |
| | 3.17: | Image guided therapy |
| | 3.18: | Therapy efficacy assessment |
| | 3.19: | Interventional imaging |
| | 3.20: | Radiation therapy planning and treatment |
| | 3.21: | Computer aided detection and diagnosis |
| | 3.22: | Dynamic imaging |
| | 3.23: | Strain imaging |
| | 3.24: | Biometry and atlases |
| | 3.25: | Neural engineering |