Magnetic resonance perfusion imaging is a today's very promising method for medicine diagnosis. This thesis deals with a sparse representation of signals, low-rank matrix recovery and compressed sensing, which allows overcoming present physical limitations of magnetic resonance perfusion imaging. Several models for reconstruction of measured perfusion data is introduced and numerical methods for their software implementation, which is an important part of the thesis, is mentioned. Proposed models are verified on simulated and real perfusion data from magnetic resonance
The introduction of compressed sensing methods to speed up image acquisition has received great atte...
This thesis describes the theory for static and dynamic magnetic-resonance imaging using contrast ag...
Magnetic resonance imaging (MRI) has become a helpful technique and developed rapidly in clinical me...
Perfúzní zobrazování v MRI je lékařská diagnostická metoda, kdy pacientovi podáme kontrastní látku a...
Perfusion MRI can provide information about perfusion characteristics of the observed tissue, which ...
This thesis deals with the nuclear magnetic resonance field, especially spectroscopy and spectroscop...
We propose a compressive sensing method for reconstructing gradient-sparse magnetic resonance (MR) i...
Compressed sensing (CS) is a recently developed scheme in the signal processing that enables the rec...
Compressed sensing (CS) magnetic resonance imaging (MRI) enables the reconstruction of MRI images wi...
Compressed sensing (CS) theory has been recently applied in Magnetic Resonance Imaging (MRI) to acce...
Medical imaging problems, such as magnetic resonance imaging, can typically be modeled as inverse pr...
Compressed sensing (CS) has been applied to magnetic resonance imaging for the acceleration of data ...
Magnetic resonance imaging is a diagnostic method to form images of the organs in the body. Long acq...
Classic signal processing theory dictates that, in order to faithfully reconstruct a band-limited si...
Proton magnetic resonance techniques have become indispensable for characterising tissues non-invasi...
The introduction of compressed sensing methods to speed up image acquisition has received great atte...
This thesis describes the theory for static and dynamic magnetic-resonance imaging using contrast ag...
Magnetic resonance imaging (MRI) has become a helpful technique and developed rapidly in clinical me...
Perfúzní zobrazování v MRI je lékařská diagnostická metoda, kdy pacientovi podáme kontrastní látku a...
Perfusion MRI can provide information about perfusion characteristics of the observed tissue, which ...
This thesis deals with the nuclear magnetic resonance field, especially spectroscopy and spectroscop...
We propose a compressive sensing method for reconstructing gradient-sparse magnetic resonance (MR) i...
Compressed sensing (CS) is a recently developed scheme in the signal processing that enables the rec...
Compressed sensing (CS) magnetic resonance imaging (MRI) enables the reconstruction of MRI images wi...
Compressed sensing (CS) theory has been recently applied in Magnetic Resonance Imaging (MRI) to acce...
Medical imaging problems, such as magnetic resonance imaging, can typically be modeled as inverse pr...
Compressed sensing (CS) has been applied to magnetic resonance imaging for the acceleration of data ...
Magnetic resonance imaging is a diagnostic method to form images of the organs in the body. Long acq...
Classic signal processing theory dictates that, in order to faithfully reconstruct a band-limited si...
Proton magnetic resonance techniques have become indispensable for characterising tissues non-invasi...
The introduction of compressed sensing methods to speed up image acquisition has received great atte...
This thesis describes the theory for static and dynamic magnetic-resonance imaging using contrast ag...
Magnetic resonance imaging (MRI) has become a helpful technique and developed rapidly in clinical me...