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We present a novel 3D-to-2D registration method called CLARET (Correction via Limited-Angle Residues in External Beam Therapy) that has potential application to rapid and accurate image-guided… Continue Reading
In computer vision and image analysis, image registration between 2D projections and a 3D image that achieves high accuracy and near real-time computation is challenging. In this paper, we propose a… Continue Reading
Purpose: To evaluate traditional 3D/3D and 3D/2D rigid registration strategies for tomosynthesisimages obtained from the Nanotube Stationary Tomosynthesis (NST) geometry. Method and Materials: NST is… Continue Reading
Purpose: To study the feasibility of a novel method, CLARET (correction in limited‐angle residues in external beam radiation), for supporting the Nanotube Stationary Tomosynthesis (NST) device to… Continue Reading
The project provides a closer look at one of the most prominent student ballroom dance organizations in Madison, Wisconsin.
Purpose: To yield accurate patient treatment setup correction from few numbers of projection images in tomosynthesis‐based IGRT approaches using cone‐beam CT(CBCT) and the novel carbon nanotube… Continue Reading
We have designed and built a stationary digital breast tomosynthesis (DBT) system containing a carbon nanotube based field emission x-ray source array to examine the possibility of obtaining a… Continue Reading
In computer vision and image analysis, image registration between 2D projections and a 3D image while obtaining high accuracy and real-time computation is challenging. In this paper, we propose a… Continue Reading