广义迭代最可能的定向点（G-IMLOP）配准

Generalized iterative most likely oriented-point (G-IMLOP) registration.

作者信息

Billings Seth, Taylor Russell

机构信息

Department of Computer Science, Johns Hopkins University, Baltimore, MD, 21218, USA,

出版信息

Int J Comput Assist Radiol Surg. 2015 Aug;10(8):1213-26. doi: 10.1007/s11548-015-1221-2. Epub 2015 May 23.

DOI:10.1007/s11548-015-1221-2

PMID:26002817

Abstract

PURPOSE

The need to align multiple representations of anatomy is a problem frequently encountered in clinical applications. A new algorithm for feature-based registration is presented that solves this problem by aligning both position and orientation information of the shapes being registered.

METHODS

The iterative most likely oriented-point (IMLOP) algorithm and its generalization (G-IMLOP) to the anisotropic noise case are described. These algorithms may be understood as probabilistic variants of the popular iterative closest point (ICP) algorithm. A probabilistic model provides the framework, wherein both position information and orientation information are simultaneously optimized. Like ICP, the proposed algorithms iterate between correspondence and registration subphases. Efficient and optimal solutions are presented for implementing each subphase of the proposed methods.

RESULTS

Experiments based on human femur data demonstrate that the IMLOP and G-IMLOP algorithms provide a strong accuracy advantage over ICP, with G-IMLOP providing additional accuracy improvement over IMLOP for registering data characterized by anisotropic noise. Furthermore, the proposed algorithms have increased ability to robustly identify an accurate versus inaccurate registration result.

CONCLUSION

The IMLOP and G-IMLOP algorithms provide a cohesive framework for incorporating orientation data into the registration problem, thereby enabling improvement in accuracy as well as increased confidence in the quality of registration outcomes. For shape data having anisotropic uncertainty in position and/or orientation, the anisotropic noise model of G-IMLOP enables further gains in registration accuracy to be achieved.

摘要

目的

在临床应用中，常常会遇到需要对齐多种解剖结构表示的问题。本文提出了一种基于特征的配准新算法，该算法通过对齐待配准形状的位置和方向信息来解决这一问题。

方法

描述了迭代最可能取向点（IMLOP）算法及其在各向异性噪声情况下的推广（G - IMLOP）。这些算法可理解为流行的迭代最近点（ICP）算法的概率变体。概率模型提供了一个框架，在该框架中，位置信息和方向信息可同时得到优化。与ICP一样，所提出的算法在对应和配准子阶段之间进行迭代。针对所提出方法的每个子阶段，给出了高效且最优的实现方案。

结果

基于人体股骨数据的实验表明，IMLOP和G - IMLOP算法比ICP具有显著的精度优势，对于以各向异性噪声为特征的数据配准，G - IMLOP比IMLOP在精度上有进一步提高。此外，所提出的算法在稳健识别准确与不准确配准结果方面能力更强。

结论

IMLOP和G - IMLOP算法为将方向数据纳入配准问题提供了一个连贯的框架，从而能够提高精度，并增加对配准结果质量的信心。对于在位置和/或方向上具有各向异性不确定性的形状数据，G - IMLOP的各向异性噪声模型能够进一步提高配准精度。

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广义迭代最可能的定向点（G-IMLOP）配准

Generalized iterative most likely oriented-point (G-IMLOP) registration.

作者信息

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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