Correction of motion artifact in cardiac optical mapping using image registration

## Abstract A method of correcting motional artifacts in diffusion‐weighted images is described. Motion causes changes in the phase of the __k__‐space NMR signal and thereby introduces positional shifts (or ghosts) in the spatial domain. By correcting the phase of the NMR signal before Fourier tran

## Abstract For diffusion‐weighted magnetic resonance imaging and under circumstances where patient movement can be modeled as rigid body motion, it is shown both theoretically and experimentally that translations and rotations produce phase errors which are zero‐ and first‐order, respectively, in

## Abstract In this paper, we describe a method for detecting and correcting in‐plane bulk translational motion in multislice spin‐echo imaging using self‐calibration and postprocessing. A constant phase encoding offset between slices is used to evenly spread out the low spatial frequency echoes to

## Abstract This article presents a method to reconstruct liver MRI data acquired continuously during free breathing, without any external sensor or navigator measurements. When the deformations associated with __k__‐space data are known, generalized matrix inversion reconstruction has been shown t