ABSORB: Atlas building by Self-Organized Registration and Bundling
A novel groupwise registration framework, called Atlas Building by Self-Organized Registration and Bundling (ABSORB), is proposed in this paper. In this framework, the global structure of relative subject image distribution is preserved during the registration by constraining each subject to deform...
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| Published in | 2010 IEEE Computer Society Conference on Computer Vision and Pattern Recognition pp. 2785 - 2790 |
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| Main Authors | , , , |
| Format | Conference Proceeding |
| Language | English |
| Published |
IEEE
01.06.2010
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| Subjects | |
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| Abstract | A novel groupwise registration framework, called Atlas Building by Self-Organized Registration and Bundling (ABSORB), is proposed in this paper. In this framework, the global structure of relative subject image distribution is preserved during the registration by constraining each subject to deform locally within the learned manifold. A self-organized registration is employed to deform each subject towards a subset of its neighbors that are closer to the global center. Some subjects close enough in the manifold will be bundled into a subgroup during the registration, and then deformed together in the subsequent registration process. This framework performs groupwise registration in a hierarchical way. Specifically, in the higher level, it will perform on a much smaller dataset formed by the representative subjects of all subgroups generated in the previous levels of registration. The atlas image can be eventually built once the registration arrives at the upmost level. Experimental results on both synthetic and real datasets show that the proposed framework can achieve substantial improvements, compared to the other two widely used groupwise methods, in terms of both registration accuracy and robustness. |
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| AbstractList | A novel groupwise registration framework, called Atlas Building by Self-Organized Registration and Bundling (ABSORB), is proposed in this paper. In this framework, the global structure of relative subject image distribution is preserved during the registration by constraining each subject to deform locally within the learned manifold. A self-organized registration is employed to deform each subject towards a subset of its neighbors that are closer to the global center. Some subjects close enough in the manifold will be bundled into a subgroup during the registration, and then deformed together in the subsequent registration process. This framework performs groupwise registration in a hierarchical way. Specifically, in the higher level, it will perform on a much smaller dataset formed by the representative subjects of all subgroups generated in the previous levels of registration. The atlas image can be eventually built once the registration arrives at the upmost level. Experimental results on both synthetic and real datasets show that the proposed framework can achieve substantial improvements, compared to the other two widely used groupwise methods, in terms of both registration accuracy and robustness. |
| Author | Hongjun Jia Guorong Wu Dinggang Shen Qian Wang |
| Author_xml | – sequence: 1 surname: Hongjun Jia fullname: Hongjun Jia email: jiahj@med.unc.edu organization: Dept. of Radiol., Univ. of North Carolina at Chapel Hill, Chapel Hill, NC, USA – sequence: 2 surname: Guorong Wu fullname: Guorong Wu email: grwu@med.unc.edu organization: Dept. of Radiol., Univ. of North Carolina at Chapel Hill, Chapel Hill, NC, USA – sequence: 3 surname: Qian Wang fullname: Qian Wang email: qianwang@cs.unc.edu organization: Dept. of Radiol., Univ. of North Carolina at Chapel Hill, Chapel Hill, NC, USA – sequence: 4 surname: Dinggang Shen fullname: Dinggang Shen email: dgshen@med.unc.edu organization: Dept. of Radiol., Univ. of North Carolina at Chapel Hill, Chapel Hill, NC, USA |
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| Snippet | A novel groupwise registration framework, called Atlas Building by Self-Organized Registration and Bundling (ABSORB), is proposed in this paper. In this... |
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| SubjectTerms | Biomedical imaging Buildings Computer science Cost function Image analysis Image registration Optimization methods Radiology Registers Robustness |
| Title | ABSORB: Atlas building by Self-Organized Registration and Bundling |
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