Intensity-based image registration approaches rely on similarity measures to guide the search for geometric correspondences with high affinity between images. The properties of the used measure are vital for the robustness and accuracy of the registration. In this study a symmetric, intensity interpolation-free, affine registration framework based on a combination of intensity and spatial information is proposed. The excellent performance of the framework is demonstrated on a combination of synthetic tests, recovering known transformations in the presence of noise, and real applications in biomedical and medical image registration, for both 2D and 3D images. The method exhibits greater robustness and higher accuracy than similarity measures...
We present INSPIRE, a top-performing general-purpose method for deformable image registration. INSPI...
This work concerns a novel study in the field of image-to-geometry registration. Our approach takes ...
Conventional mutual information (MI)-based registration using pixel intensities is time-consuming an...
Intensity-based image registration approaches rely on similarity measures to guide the search for ge...
Much biomedical and medical research relies on the collection of ever-larger amounts of image data (...
To make up for the lack of concern on the spatial information in the conventional mutual information...
Mutual information has developed into an accurate measure for rigid and affine monomodality and mult...
Image registration is a fundamental problem that can be found in a diverse range of fields within th...
Image registration is the process of finding the geometric transformation that, applied to the float...
Image registration is an important topic for many imaging systems and computer vision applications. ...
In image-guided intervention, 2D/3D medical image registration is crucial to supply the clinician sp...
Abstract—Most registration algorithms for medical images may suffer from slow convergence and sensit...
University of Minnesota Ph.D. dissertation. November 2012. Major: Statistics. Advisor: Peihua Qiu. 1...
10.1109/ISBI.2013.6556455Proceedings - International Symposium on Biomedical Imaging234-23
In this paper, a novel spatial feature, namely maximum distance-gradient-magnitude (MDGM), is define...
We present INSPIRE, a top-performing general-purpose method for deformable image registration. INSPI...
This work concerns a novel study in the field of image-to-geometry registration. Our approach takes ...
Conventional mutual information (MI)-based registration using pixel intensities is time-consuming an...
Intensity-based image registration approaches rely on similarity measures to guide the search for ge...
Much biomedical and medical research relies on the collection of ever-larger amounts of image data (...
To make up for the lack of concern on the spatial information in the conventional mutual information...
Mutual information has developed into an accurate measure for rigid and affine monomodality and mult...
Image registration is a fundamental problem that can be found in a diverse range of fields within th...
Image registration is the process of finding the geometric transformation that, applied to the float...
Image registration is an important topic for many imaging systems and computer vision applications. ...
In image-guided intervention, 2D/3D medical image registration is crucial to supply the clinician sp...
Abstract—Most registration algorithms for medical images may suffer from slow convergence and sensit...
University of Minnesota Ph.D. dissertation. November 2012. Major: Statistics. Advisor: Peihua Qiu. 1...
10.1109/ISBI.2013.6556455Proceedings - International Symposium on Biomedical Imaging234-23
In this paper, a novel spatial feature, namely maximum distance-gradient-magnitude (MDGM), is define...
We present INSPIRE, a top-performing general-purpose method for deformable image registration. INSPI...
This work concerns a novel study in the field of image-to-geometry registration. Our approach takes ...
Conventional mutual information (MI)-based registration using pixel intensities is time-consuming an...