PIMS-CSC Seminar: Rodrigo Platte

  • Date: 09/23/2016
Rodrigo Platte, Arizona State University

Simon Fraser University


Second order approximation of the MRI signal for single shot parameter assessment


Most current methods of Magnetic Resonance Imaging (MRI) reconstruction interpret raw signal values as samples of the Fourier transform of the object. Although this is computationally convenient, it neglects relaxation and off–resonance evolution in phase angle, both of which can occur to a significant extent during a typical MRI signal. A more accurate model, known as Parameter Assessment by Recovery from Signal Encoding (PARSE), takes the time evolution of the signal into consideration. This model uses three parameters that depend on tissue properties: transverse magnetization, signal decay rate, and frequency offset from resonance. Two difficulties in recovering an image using this model are the low SNR for long acquisition times in single-shot MRI, and the nonlinear dependence of the signal on the decay rate and frequency offset. In this talk, we address the latter issue by using a second order approximation of the original PARSE model. The linearized model can be solved using convex optimization augmented with well-stablished regularization techniques such as total variation . The sensitivity of the parameters to noise and computational challenges associated with this approximation will be discussed.

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Location: Room K9509