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Rigid Shape Registration Based on Extended Hamiltonian Learning

机译：基于延长Hamiltonian学习的刚性形状登记

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摘要

Shape registration, finding the correct alignment of two sets of data, plays a significant role in computer vision such as objection recognition and image analysis. The iterative closest point (ICP) algorithm is one of well known and widely used algorithms in this area. The main purpose of this paper is to incorporate ICP with the fast convergent extended Hamiltonian learning (EHL), so called EHL-ICP algorithm, to perform planar and spatial rigid shape registration. By treating the registration error as the potential for the extended Hamiltonian system, the rigid shape registration is modelled as an optimization problem on the special Euclidean group SE(n)(n=2,3). Our method is robust to initial values and parameters. Compared with some state-of-art methods, our approach shows better efficiency and accuracy by simulation experiments.

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期刊名称 Entropy
作者
Jin Yi; Shiqiang Zhang; Yueqi Cao; Erchuan Zhang; Huafei Sun;
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作者单位

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年(卷),期 2020(22),5
年度 2020
页码 539
总页数 11
原文格式 PDF
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中图分类
关键词
rigid registration; iterative closest point; special Euclidean group; extended Hamiltonian learning;

机译：刚性登记;迭代最近的点;特殊欧几里德集团;延长哈密顿学习;

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专利

1. An improved 3D shape context based non-rigid registration method and its application to small animal skeletons registration. [J] . Xiao D, Zahra D, Bourgeat P, Computerized Medical Imaging and Graphics: The Official Jounal of the Computerized Medical Imaging Society . 2010,第4期

机译：一种改进的基于3D形状上下文的非刚性配准方法及其在小动物骨骼配准中的应用。
2. Cortical surface mapping using topology correction, partial flattening and 3D shape context-based non-rigid registration for use in quantifying atrophy in Alzheimer's disease [J] . AcostaO., FrippJ., DoréV., Journal of Neuroscience Methods . 2012,第1期

机译：使用拓扑校正，部分展平和基于3D形状上下文的非刚性配准的皮质表面映射，用于量化阿尔茨海默氏病的萎缩
3. Segmentation of kidneys using a new active shape model generation technique based on non-rigid image registration. [J] . Spiegel M, Hahn DA, Daum V, Computerized Medical Imaging and Graphics: The Official Jounal of the Computerized Medical Imaging Society . 2009,第1期

机译：基于非刚性图像配准的新型活性形状模型生成技术分割肾脏分割。
4. Target Registration Error for Rigid Shape-based Registration with Heteroscedastic Noise [C] . Burton Ma, Joy Choi, Hong Ming Huai Conference on image-guided procedures, robotic interventions, and modeling . 2014

机译：基于刚性形状的异方差噪声配准的目标配准错误
5. Learning-Based Dissimilarity Measure for Rigid and Non-Rigid Medical Image Registration [D] . So, Wai King. 2017

机译：刚性和非刚性医学图像配准的基于学习的差异度量
6. Non-Rigid Active Shape Model-based Registration Framework for Motion Correction of Cardiac T1 Mapping [O] . Hossam El-Rewaidy, Maryam Nezafat, Jihye Jang, -1

机译：基于非刚性活动形状模型的心脏T1映射运动校正注册框架
7. Rigid Shape Registration Based on Extended Hamiltonian Learning [O] . Jin Yi, Shiqiang Zhang, Yueqi Cao, 2020

机译：基于延长Hamiltonian学习的刚性形状登记

Rigid Shape Registration Based on Extended Hamiltonian Learning

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