Your search keyword '"weighted rosette"' showing total 2 results

1. Rosette Trajectories for Fast MRI Based on an Adaptive Reconstruction Method

Author

Wen Xu, Xiaomei Yang, Kai Liu, Qiaoyu Tian, and Jin Xu

Subjects

MRI, non-Cartesian trajectory, k-space, weighted rosette, adaptively, reconstruction, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

Non-Cartesian MRI k-space trajectories provide faster and more motion-robust data acquisitions than those of Cartesian trajectories. In this paper, we focus on the rosette trajectory and generalize the weighted rosette trajectories for fast undersampled k-space data acquisition. However, single-slice imaging using the rosette trajectory will be affected by the off-resonance effect. To reduce the artifacts from off-resonance slices, this paper introduced an adaptive iterative reconstruction method derived from the TV and nuclear norm regularization terms for raw MRI data reconstruction. This reconstruction problem was separated into two subproblems and solved with an adaptive regularization parameter. The results show that the weighted rosette trajectory that offers short acquisition times and good off-resonance behaviors with little blurring can be used for reconstruction with adaptive regularization parameters and achieve a superior performance.

Published

2021

2. Rosette Trajectories for Fast MRI Based on an Adaptive Reconstruction Method

Author

Qiaoyu Tian, Xu Wen, Xiaomei Yang, Jin Xu, and Kai Liu

Subjects

reconstruction, General Computer Science, Computer science, weighted rosette, 02 engineering and technology, Iterative reconstruction, adaptively, 030218 nuclear medicine & medical imaging, law.invention, 03 medical and health sciences, 0302 clinical medicine, Data acquisition, law, 0202 electrical engineering, electronic engineering, information engineering, General Materials Science, Cartesian coordinate system, Fast mri, Rosette (schizont appearance), k-space, General Engineering, Reconstruction method, Trajectory, 020201 artificial intelligence & image processing, lcsh:Electrical engineering. Electronics. Nuclear engineering, non-Cartesian trajectory, Focus (optics), Algorithm, lcsh:TK1-9971, MRI

Abstract

Non-Cartesian MRI k-space trajectories provide faster and more motion-robust data acquisitions than those of Cartesian trajectories. In this paper, we focus on the rosette trajectory and generalize the weighted rosette trajectories for fast undersampled k-space data acquisition. However, single-slice imaging using the rosette trajectory will be affected by the off-resonance effect. To reduce the artifacts from off-resonance slices, this paper introduced an adaptive iterative reconstruction method derived from the TV and nuclear norm regularization terms for raw MRI data reconstruction. This reconstruction problem was separated into two subproblems and solved with an adaptive regularization parameter. The results show that the weighted rosette trajectory that offers short acquisition times and good off-resonance behaviors with little blurring can be used for reconstruction with adaptive regularization parameters and achieve a superior performance.

Published

2021