This paper provides a comprehensive overview of the recent advancements in deep learning-based medical image registration. It begins with a concise introduction to the core concepts of deep learning-based image registration, including the differences between supervised and unsupervised learning approaches.
The paper then delves into the various loss functions used in deep learning-based registration, including similarity measures, deformation regularizers, and the incorporation of auxiliary anatomical information. It discusses how these loss functions resemble the objective functions used in traditional registration methods, as well as novel loss functions enabled by deep learning.
Next, the paper explores the evolution of network architectures developed for medical image registration, highlighting the recent progress beyond the conventional convolutional neural network (CNN) designs, such as the adoption of Transformers, diffusion models, and Neural ODEs.
The paper also investigates methods for estimating registration uncertainty in deep learning-based registration, which is an important aspect that has been overlooked in previous review papers.
Furthermore, the paper considers appropriate evaluation metrics for assessing the performance of deep learning models in registration tasks, including measures for quantifying the regularity of generated deformation fields.
Finally, the paper summarizes recent applications of deep learning-based registration in medical imaging and discusses the current challenges and future prospects of this rapidly evolving field.
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by Junyu Chen,Y... om arxiv.org 05-02-2024
https://arxiv.org/pdf/2307.15615.pdfDiepere vragen