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Global Non-Rigid Alignment of 3-D Scans

ACM Transactions on Graphics (Proc. SIGGRAPH), August 2007

Benedict Brown, Szymon Rusinkiewicz
Abstract

A key challenge in reconstructing high-quality 3D scans is registering data from different viewpoints. Existing global (multiview) alignment algorithms are restricted to rigid-body transformations, and cannot adequately handle non-rigid warps frequently present in real-world datasets. Moreover, algorithms that can compensate for such warps between pairs of scans do not easily generalize to the multiview case. We present an algorithm for obtaining a globally optimal alignment of multiple overlapping datasets in the presence of low-frequency non-rigid deformations, such as those caused by device nonlinearities or calibration error. The process first obtains sparse correspondences between views using a locally weighted, stability-guaranteeing variant of iterative closest points (ICP). Global positions for feature points are found using a relaxation method, and the scans are warped to their final positions using thin-plate splines. Our framework efficiently handles large datasets—thousands of scans comprising hundreds of millions of samples—for both rigid and non-rigid alignment, with the nonrigid case requiring little overhead beyond rigid-body alignment. We demonstrate that, relative to rigid-body registration, it improves the quality of alignment and better preserves detail in 3D datasets from a variety of scanners exhibiting non-rigid distortion.
Paper
Citation

Benedict Brown and Szymon Rusinkiewicz.
"Global Non-Rigid Alignment of 3-D Scans."
ACM Transactions on Graphics (Proc. SIGGRAPH) 26(3), August 2007.

BibTeX

@article{Brown:2007:GNA,
   author = "Benedict Brown and Szymon Rusinkiewicz",
   title = "Global Non-Rigid Alignment of {3-D} Scans",
   journal = "ACM Transactions on Graphics (Proc. SIGGRAPH)",
   year = "2007",
   month = aug,
   volume = "26",
   number = "3"
}