Abstract
Image registration, which aligns a pair of fixed and moving images, is often tackled by the large shape and intensity variation between the images. As a remedy, we present a generalized registration framework that is capable to predict the initial deformation field between the fixed and moving images, even though their appearances are very different. For the prediction, we learn the prior knowledge on deformation from pre-observed images. Especially, our method is significantly differentiated from previous methods that are usually confined to a specific fixed image, to be flexible for handling arbitrary fixed and moving images. Specifically, our idea is to encapsulate many pre-observed images into a hierarchical infrastructure, termed as cloud, which is able to efficiently compute the deformation pathways between the pre-observed images. After anchoring the fixed and moving images to their respective port images (similar images in terms of intensity appearance) in the cloud, we predict the initial deformation between the fixed and moving images by the deformation pathway between the two port images. Thus, the remaining small deformation can be efficiently refined via most existing deformable registration methods. With the cloud, we have obtained promising registration results on both adult and infant brain images, demonstrating the advantage of the proposed registration framework in improving the registration performance.
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References
Kim, M., et al.: A General Fast Registration Framework by Learning Deformation-Appearance Correlation. IEEE Transactions on Image Processing 21(4), 1823–1833 (2012)
Jia, H., Yap, P.-T., Shen, D.: Iterative multi-atlas-based multi-image segmentation with tree-based registration. Neuroimage 59(1), 422–430 (2012)
Tang, S., et al.: RABBIT: rapid alignment of brains by building intermediate templates. Neuroimage 47(4), 1277–1287 (2009)
Loeckx, D., Maes, F., Vandermeulen, D., Suetens, P.: Non-rigid image registration using a statistical spline deformation model. In: Taylor, C.J., Noble, J.A. (eds.) IPMI 2003. LNCS, vol. 2732, pp. 463–474. Springer, Heidelberg (2003)
Shen, D.: Fast image registration by hierarchical soft correspondence detection. Pattern Recognition 42(5), 954–961 (2009)
Frey, B.J., Dueck, D.: Clustering by Passing Messages Between Data Points. Science 315(5814), 972–976 (2007)
Xue, Z., et al.: Simulating deformations of MR brain images for validation of atlas-based segmentation and registration algorithms. Neuroimage 33(3), 855–866 (2006)
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© 2013 Springer-Verlag Berlin Heidelberg
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Kim, M., Wu, G., Wang, Q., Shen, D. (2013). Brain-Cloud: A Generalized and Flexible Registration Framework for Brain MR Images. In: Liao, H., Linte, C.A., Masamune, K., Peters, T.M., Zheng, G. (eds) Augmented Reality Environments for Medical Imaging and Computer-Assisted Interventions. MIAR AE-CAI 2013 2013. Lecture Notes in Computer Science, vol 8090. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-40843-4_17
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DOI: https://doi.org/10.1007/978-3-642-40843-4_17
Publisher Name: Springer, Berlin, Heidelberg
Print ISBN: 978-3-642-40842-7
Online ISBN: 978-3-642-40843-4
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