Efficient multiple acquisitions by Skipped Phase Encoding and Edge Deghosting (SPEED) using shared spatial information. Academic Article

abstract

• The fast MRI method of Skipped Phase Encoding and Edge Deghosting (SPEED) is further developed to accelerate multiple acquisitions. In a single acquisition, SPEED first acquires three sparse ghosted edge maps with an undersampling factor of N/3, which are modeled with a double-layer structure and described by three equations with two unknown ghosts, each with a unique ghost order index. By minimizing least-square-error, a pair of ghost order indexes is determined. Based on them, the two corresponding ghosts are resolved, leading to a deghosted image. In this case, three equations are needed to determine the ghost order index, while only two equations are required to resolve the two ghosts. This shows both inefficiency and potential. Multiple acquisitions often contain similar spatial information. The similarities can be used to improve efficiency by sharing the ghost order index among different acquisitions, leading to acceleration factors greater than that achievable with single acquisition.

authors

• Ji, Jim

published proceedings

• Magn Reson Med

author list (cited authors)

• Chang, Z., Xiang, Q., Ji, J., & Yin, F.

citation count

• 5

complete list of authors

• Chang, Zheng||Xiang, Qing-San||Ji, Jim||Yin, Fang-Fang

publication date

• January 2009

publisher

• Wiley  Publisher

published in

• Magnetic Resonance in Medicine  Journal

keywords

• Algorithms
• Artifacts
• Brain
• Humans
• Image Enhancement
• Image Interpretation, Computer-Assisted
• Magnetic Resonance Imaging
• Pattern Recognition, Automated
• Reproducibility Of Results
• Sensitivity And Specificity

PubMed Central ID

• 19097227

Digital Object Identifier (DOI)

• 10.1002/mrm.21809

start page

• 229

end page

• 233

volume

• 61

issue

• 1

URL

• http://dx.doi.org/10.1002/mrm.21809