Ultra-high resolution imaging of the human brain using acquisition-weighted imaging at 9.4 T.
Juliane BuddeG. ShajanKlaus SchefflerRolf PohmannPublished in: NeuroImage (2014)
Keyphrases
- high resolution
- image processing
- super resolution
- low resolution
- imaging systems
- synthetic aperture sonar
- spatial resolution
- image analysis
- data acquisition
- high frequency
- computer vision
- medical imaging
- remote sensing
- magnetic resonance images
- neural network
- high resolution images
- high spatial resolution
- synthetic aperture
- limited field of view
- high resolution color
- atomic force microscopy
- resolution enhancement
- imaging devices
- human subjects
- motion estimation
- high quality