A full migration BBO algorithm with enhanced population quality bounds for multimodal biomedical image registration

Medical images acquired from different modalities give rise to many practical problems in image registration. Intensity-based registration techniques have been increasingly used in multimodal image registration; these techniques integrate different images that have shared content into a single repre...

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Published inApplied soft computing Vol. 93; p. 106335
Main Authors Chen, Yilin, He, Fazhi, Li, Haoran, Zhang, Dejun, Wu, Yiqi
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.08.2020
Subjects
Biogeography-based Optimization
Image registration
Medical imaging
Nature-inspired algorithm
Swarm intelligence
Biogeography-based Optimization
Image registration
Swarm intelligence
Medical imaging
Nature-inspired algorithm
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Abstract Medical images acquired from different modalities give rise to many practical problems in image registration. Intensity-based registration techniques have been increasingly used in multimodal image registration; these techniques integrate different images that have shared content into a single representation, by transformation. The estimation of the optimal transformation requires the optimization of a similarity metric between the images. Recently, many optimization methods have been proposed that focus on the development of the optimization component. However, there is still room for large amounts of improvement, from both an efficiency point of view and a quality perspective. In this paper we present a new Biogeography-based Optimization (BBO) algorithm, the Biogeography-based Optimization algorithm with Elite Learning (BBO-EL), for multimodal medical image registration. First, we propose a hybrid full migration operator in which each individual has the chance to perform the migration operation and the whole population has the chance to expand the search space. In this way, the search ability of the BBO algorithm is enhanced and matches well the characteristics of multimodal medical image registration. In addition, considering that the quality of some individuals could be deteriorated as caused by the migration operation, we propose an undo operator on the deteriorated individuals. Thus, the lower bound of the whole population’s quality can be maintained at a higher level. Furthermore, in the original BBO algorithm, a number of good individuals might be not involved in the migration operation, and we present an elite learning operator that is based on social comparison theory to improve the upper bound of the whole population’s quality. Therefore, after improving both the lower bound and the upper bound of the whole population’s quality, the accuracy and the convergence speed of the multimodal medical registration can be greatly enhanced. The BBO-EL has been tested in many experiments on benchmark datasets include six kind of different modality images, from up to eighteen different patients, which can make up 54 multimodal registration scenarios. The BBO-EL obtained 30 best performance scenarios while the state-of-the-art algorithm obtained 21 scenarios. The results demonstrated that BBO-EL outperforms the state-of-the-art algorithm in most cases for practical problems. •A novel BBO algorithm: the Biogeography-based Optimization algorithm with Elite Learning (BBO-EL).•A hybrid full migration operator to perform the migration operation and increase the search space.•The lower bound of the whole population’s quality can be maintained in higher level.•An elite learning operator based on social comparison theory to improve the upper bound.
AbstractList Medical images acquired from different modalities give rise to many practical problems in image registration. Intensity-based registration techniques have been increasingly used in multimodal image registration; these techniques integrate different images that have shared content into a single representation, by transformation. The estimation of the optimal transformation requires the optimization of a similarity metric between the images. Recently, many optimization methods have been proposed that focus on the development of the optimization component. However, there is still room for large amounts of improvement, from both an efficiency point of view and a quality perspective. In this paper we present a new Biogeography-based Optimization (BBO) algorithm, the Biogeography-based Optimization algorithm with Elite Learning (BBO-EL), for multimodal medical image registration. First, we propose a hybrid full migration operator in which each individual has the chance to perform the migration operation and the whole population has the chance to expand the search space. In this way, the search ability of the BBO algorithm is enhanced and matches well the characteristics of multimodal medical image registration. In addition, considering that the quality of some individuals could be deteriorated as caused by the migration operation, we propose an undo operator on the deteriorated individuals. Thus, the lower bound of the whole population’s quality can be maintained at a higher level. Furthermore, in the original BBO algorithm, a number of good individuals might be not involved in the migration operation, and we present an elite learning operator that is based on social comparison theory to improve the upper bound of the whole population’s quality. Therefore, after improving both the lower bound and the upper bound of the whole population’s quality, the accuracy and the convergence speed of the multimodal medical registration can be greatly enhanced. The BBO-EL has been tested in many experiments on benchmark datasets include six kind of different modality images, from up to eighteen different patients, which can make up 54 multimodal registration scenarios. The BBO-EL obtained 30 best performance scenarios while the state-of-the-art algorithm obtained 21 scenarios. The results demonstrated that BBO-EL outperforms the state-of-the-art algorithm in most cases for practical problems. •A novel BBO algorithm: the Biogeography-based Optimization algorithm with Elite Learning (BBO-EL).•A hybrid full migration operator to perform the migration operation and increase the search space.•The lower bound of the whole population’s quality can be maintained in higher level.•An elite learning operator based on social comparison theory to improve the upper bound.
ArticleNumber 106335
Author Li, Haoran
Chen, Yilin
Wu, Yiqi
He, Fazhi
Zhang, Dejun
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  organization: School of Computer Science, Wuhan University, Wuhan, 430072, China
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  givenname: Dejun
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  organization: Faculty of Information Engineering, China University of Geosciences, Wuhan, China
– sequence: 5
  givenname: Yiqi
  surname: Wu
  fullname: Wu, Yiqi
  organization: School of Computer Science, China University of Geosciences, Wuhan, China
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Image registration
Swarm intelligence
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Nature-inspired algorithm
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Snippet Medical images acquired from different modalities give rise to many practical problems in image registration. Intensity-based registration techniques have been...
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StartPage 106335
SubjectTerms Biogeography-based Optimization
Image registration
Medical imaging
Nature-inspired algorithm
Swarm intelligence
Title A full migration BBO algorithm with enhanced population quality bounds for multimodal biomedical image registration
URI https://dx.doi.org/10.1016/j.asoc.2020.106335
Volume 93
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