Complex extension of optical flow and its practical evaluation for undersampled dynamic MRI
Reconstructing high-quality images from undersampled dynamic MRI data is a challenging task and important for the success of this imaging modality. To remedy the naturally occurring artifacts due to measurement undersampling, one can incorporate a motion model into the reconstruction so that informa...
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| creator | Ehrhardt, Matthias J Mauritz, Marco |
| description | Reconstructing high-quality images from undersampled dynamic MRI data is a
challenging task and important for the success of this imaging modality. To
remedy the naturally occurring artifacts due to measurement undersampling, one
can incorporate a motion model into the reconstruction so that information can
propagate across time frames. Current models for MRI imaging are using the
optical flow equation. However, they are based on real-valued images. Here, we
generalise the optical flow equation to complex-valued images and demonstrate,
based on two real cardiac MRI datasets, that the new model is capable of
improving image quality. |
| doi_str_mv | 10.48550/arxiv.2412.12711 |
| format | Article |
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challenging task and important for the success of this imaging modality. To
remedy the naturally occurring artifacts due to measurement undersampling, one
can incorporate a motion model into the reconstruction so that information can
propagate across time frames. Current models for MRI imaging are using the
optical flow equation. However, they are based on real-valued images. Here, we
generalise the optical flow equation to complex-valued images and demonstrate,
based on two real cardiac MRI datasets, that the new model is capable of
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challenging task and important for the success of this imaging modality. To
remedy the naturally occurring artifacts due to measurement undersampling, one
can incorporate a motion model into the reconstruction so that information can
propagate across time frames. Current models for MRI imaging are using the
optical flow equation. However, they are based on real-valued images. Here, we
generalise the optical flow equation to complex-valued images and demonstrate,
based on two real cardiac MRI datasets, that the new model is capable of
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challenging task and important for the success of this imaging modality. To
remedy the naturally occurring artifacts due to measurement undersampling, one
can incorporate a motion model into the reconstruction so that information can
propagate across time frames. Current models for MRI imaging are using the
optical flow equation. However, they are based on real-valued images. Here, we
generalise the optical flow equation to complex-valued images and demonstrate,
based on two real cardiac MRI datasets, that the new model is capable of
improving image quality.</abstract><doi>10.48550/arxiv.2412.12711</doi><oa>free_for_read</oa></addata></record> |
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| subjects | Mathematics - Optimization and Control |
| title | Complex extension of optical flow and its practical evaluation for undersampled dynamic MRI |
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