The paper proposes a two-stage framework for real-time guidewire tracking and segmentation in intraoperative X-ray imaging.
In the first stage, a YOLOv5s detector is trained using the original X-ray images as well as synthetically generated ones. A refinement module based on spatiotemporal constraints is incorporated to robustly localize the guidewire and remove false detections.
In the second stage, a novel and efficient network called HessianNet is proposed to segment the guidewire in each detected bounding box. HessianNet consists of a hessian-based enhancement embedding module and a dual self-attention module, which improve the segmentation performance and robustness to low-quality images.
Quantitative and qualitative evaluations on clinical intra-operative images demonstrate that the proposed approach significantly outperforms the baselines and the current state-of-the-art methods. The whole system is designed to perform in real-time, achieving an inference rate of approximately 35 FPS on a GPU.
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by Baochang Zha... о arxiv.org 04-16-2024
https://arxiv.org/pdf/2404.08805.pdfГлибші Запити