Frontiers in Neuroscience (Apr 2024)

MF-Net: multi-scale feature extraction-integration network for unsupervised deformable registration

  • Andi Li,
  • Andi Li,
  • Andi Li,
  • Yuhan Ying,
  • Yuhan Ying,
  • Yuhan Ying,
  • Tian Gao,
  • Tian Gao,
  • Tian Gao,
  • Lei Zhang,
  • Xingang Zhao,
  • Xingang Zhao,
  • Yiwen Zhao,
  • Yiwen Zhao,
  • Guoli Song,
  • Guoli Song,
  • He Zhang

DOI
https://doi.org/10.3389/fnins.2024.1364409
Journal volume & issue
Vol. 18

Abstract

Read online

Deformable registration plays a fundamental and crucial role in scenarios such as surgical navigation and image-assisted analysis. While deformable registration methods based on unsupervised learning have shown remarkable success in predicting displacement fields with high accuracy, many existing registration networks are limited by the lack of multi-scale analysis, restricting comprehensive utilization of global and local features in the images. To address this limitation, we propose a novel registration network called multi-scale feature extraction-integration network (MF-Net). First, we propose a multiscale analysis strategy that enables the model to capture global and local semantic information in the image, thus facilitating accurate texture and detail registration. Additionally, we introduce grouped gated inception block (GI-Block) as the basic unit of the feature extractor, enabling the feature extractor to selectively extract quantitative features from images at various resolutions. Comparative experiments demonstrate the superior accuracy of our approach over existing methods.

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