Magnetic resonance imaging (MRI) scanners implement multiple receiver coils to speed up the scan speed, which is called parallel MRI (pMRI), and the image reconstruction of pMRI involves joint estimation of the image and coil sensitivity functions. In this paper, a constraint on the image function determined by magnetic resonance physics is introduced to formulate the joint image and sensitivity reconstruction into a convex problem. It will lead to a global and optimal solution and accurate and efficient computation for pMRI reconstruction. Performance evaluation is carried out using in-vivo MRI data sets to demonstrate performance of the proposed convex optimization method
Parallel imaging is a powerful technique to speed up magnetic resonance (MR) image acquisition via m...
This talk concerns a fast and efficient method for the reconstruction of Magnetic Resonance Images ...
Abstract. Parallel Magnetic Resonance Imaging (pMRI) is a fast de-veloping technique to reduce MR sc...
In parallel magnetic resonance imaging (pMRI), to find a joint solution for the image and coil sensi...
Abstract—In parallel magnetic resonance imaging (pMRI), to find a joint solution for the image and c...
Abstract—In parallel magnetic resonance imaging (pMRI) reconstruction without using pre-estimation o...
The thesis provides a novel approach to parallel Magnetic Resonance Imaging (MRI) reconstruction. It...
In this paper, a novel sensitivity mapping method is proposed for the image domain parallel MRI (pMR...
The problem of image reconstruction from sensitivity encoded data is formulated in a general fashion...
Abstract—Based on a Fourier series expression of true image, receiver sensitivities, and measurement...
In this thesis, we develop constrained reconstructions methods to reconstruct high quality MR images...
Thesis (Ph. D.)--Harvard-MIT Division of Health Sciences and Technology, 2005.Includes bibliographic...
Magnetic Resonance Imaging (MRI) is an imaging technique used by radiologists to diagnose disease in...
Parallel magnetic resonance imaging offers a framework for acceleration of conventional MRI encoding...
Parallel Imaging MRI (pMRI) and Compressive Sensing (CS) are two reconstruction techniques that have...
Parallel imaging is a powerful technique to speed up magnetic resonance (MR) image acquisition via m...
This talk concerns a fast and efficient method for the reconstruction of Magnetic Resonance Images ...
Abstract. Parallel Magnetic Resonance Imaging (pMRI) is a fast de-veloping technique to reduce MR sc...
In parallel magnetic resonance imaging (pMRI), to find a joint solution for the image and coil sensi...
Abstract—In parallel magnetic resonance imaging (pMRI), to find a joint solution for the image and c...
Abstract—In parallel magnetic resonance imaging (pMRI) reconstruction without using pre-estimation o...
The thesis provides a novel approach to parallel Magnetic Resonance Imaging (MRI) reconstruction. It...
In this paper, a novel sensitivity mapping method is proposed for the image domain parallel MRI (pMR...
The problem of image reconstruction from sensitivity encoded data is formulated in a general fashion...
Abstract—Based on a Fourier series expression of true image, receiver sensitivities, and measurement...
In this thesis, we develop constrained reconstructions methods to reconstruct high quality MR images...
Thesis (Ph. D.)--Harvard-MIT Division of Health Sciences and Technology, 2005.Includes bibliographic...
Magnetic Resonance Imaging (MRI) is an imaging technique used by radiologists to diagnose disease in...
Parallel magnetic resonance imaging offers a framework for acceleration of conventional MRI encoding...
Parallel Imaging MRI (pMRI) and Compressive Sensing (CS) are two reconstruction techniques that have...
Parallel imaging is a powerful technique to speed up magnetic resonance (MR) image acquisition via m...
This talk concerns a fast and efficient method for the reconstruction of Magnetic Resonance Images ...
Abstract. Parallel Magnetic Resonance Imaging (pMRI) is a fast de-veloping technique to reduce MR sc...