Improved robust point matching with label consistency

Roshni Bhagalia; James V. Miller; Arunabha Roy

doi:10.1117/12.844226

12 March 2010 Improved robust point matching with label consistency

Roshni Bhagalia, James V. Miller, Arunabha Roy

Proceedings Volume 7623, Medical Imaging 2010: Image Processing; 76231D (2010) https://doi.org/10.1117/12.844226
Event: SPIE Medical Imaging, 2010, San Diego, California, United States

Abstract

Robust point matching (RPM) jointly estimates correspondences and non-rigid warps between unstructured point-clouds. RPM does not, however, utilize information of the topological structure or group memberships of the data it is matching. In numerous medical imaging applications, each extracted point can be assigned group membership attributes or labels based on segmentation, partitioning, or clustering operations. For example, points on the cortical surface of the brain can be grouped according to the four lobes. Estimated warps should enforce the topological structure of such point-sets, e.g. points belonging to the temporal lobe in the two point-sets should be mapped onto each other. We extend the RPM objective function to incorporate group membership labels by including a Label Entropy (LE) term. LE discourages mappings that transform points within a single group in one point-set onto points from multiple distinct groups in the other point-set. The resulting Labeled Point Matching (LPM) algorithm requires a very simple modification to the standard RPM update rules. We demonstrate the performance of LPM on coronary trees extracted from cardiac CT images. We partitioned the point sets into coronary sections without a priori anatomical context, yielding potentially disparate labelings (e.g. [1,2,3] → [a,b,c,d]). LPM simultaneously estimated label correspondences, point correspondences, and a non-linear warp. Non-matching branches were treated wholly through the standard RPM outlier process akin to non-matching points. Results show LPM produces warps that are more physically meaningful than RPM alone. In particular, LPM mitigates unrealistic branch crossings and results in more robust non-rigid warp estimates.

Citation Download Citation

Roshni Bhagalia, James V. Miller, and Arunabha Roy "Improved robust point matching with label consistency", Proc. SPIE 7623, Medical Imaging 2010: Image Processing, 76231D (12 March 2010); https://doi.org/10.1117/12.844226

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