Your search keyword '"Vaillant, Ghislain"' showing total 2 results

1. Retrospective Rigid Motion Correction in k-Space for Segmented Radial MRI.

Author

Vaillant, Ghislain, Prieto, Claudia, Kolbitsch, Christoph, Penney, Graeme, and Schaeffter, Tobias

Subjects

*K-spaces, *MAGNETIC resonance imaging, *DIAGNOSTIC imaging, *IMAGE quality analysis, *MEDICAL artifacts, *IMAGE registration, *COMPUTER vision

Abstract

Motion occurring during magnetic resonance imaging acquisition is a major factor of image quality degradation. Self-navigation can help reduce artefacts by estimating motion from the acquired data to enable motion correction. Popular self-navigation techniques rely on the availability of a fully-sampled motion-free reference to register the motion corrupted data with. In the proposed technique, rigid motion parameters are derived using the inherent correlation between radial segments in k-space. The registration is performed exclusively in k-space using the Phase Correlation Method, a popular registration technique in computer vision. Robust and accurate registration has been carried out from radial segments composed of as few as 32 profiles. Successful self-navigation has been performed on 2-D dynamic brain scans corrupted with continuous motion for six volunteers. Retrospective motion correction using the derived self-navigation parameters resulted in significant improvement of image quality compared to the conventional sliding window. This work also demonstrates the benefits of using a bit-reversed ordering scheme to limit undesirable effects specific to retrospective motion correction on radial trajectories. This method provides a fast and efficient mean of measuring rigid motion directly in k-space from dynamic radial data under continuous motion. [ABSTRACT FROM AUTHOR]

Published

2014

2. Evaluating reinforcement learning agents for anatomical landmark detection.

Author

Alansary, Amir, Oktay, Ozan, Li, Yuanwei, Folgoc, Loic Le, Hou, Benjamin, Vaillant, Ghislain, Kamnitsas, Konstantinos, Vlontzos, Athanasios, Glocker, Ben, Kainz, Bernhard, and Rueckert, Daniel

Subjects

*DIAGNOSTIC imaging, *DEEP learning, *IMAGE analysis, *MAGNETIC resonance imaging, *DIAGNOSTIC ultrasonic imaging

Abstract

Graphical abstract Abstract Automatic detection of anatomical landmarks is an important step for a wide range of applications in medical image analysis. Manual annotation of landmarks is a tedious task and prone to observer errors. In this paper, we evaluate novel deep reinforcement learning (RL) strategies to train agents that can precisely and robustly localize target landmarks in medical scans. An artificial RL agent learns to identify the optimal path to the landmark by interacting with an environment, in our case 3D images. Furthermore, we investigate the use of fixed- and multi-scale search strategies with novel hierarchical action steps in a coarse-to-fine manner. Several deep Q-network (DQN) architectures are evaluated for detecting multiple landmarks using three different medical imaging datasets: fetal head ultrasound (US), adult brain and cardiac magnetic resonance imaging (MRI). The performance of our agents surpasses state-of-the-art supervised and RL methods. Our experiments also show that multi-scale search strategies perform significantly better than fixed-scale agents in images with large field of view and noisy background such as in cardiac MRI. Moreover, the novel hierarchical steps can significantly speed up the searching process by a factor of 4–5 times. [ABSTRACT FROM AUTHOR]

Published

2019