Bibliographic Information: Xu, G., Wu, X., Liao, W., Wu, X., Huang, Q., & Lib, C. (2024). DBF-Net: A Dual-Branch Network with Feature Fusion for Ultrasound Image Segmentation. arXiv preprint arXiv:2411.11116v1.
Research Objective: This research paper introduces DBF-Net, a new deep learning model designed to enhance the accuracy of ultrasound image segmentation, particularly focusing on improving the delineation of lesion boundaries.
Methodology: DBF-Net utilizes a dual-branch architecture within a deep neural network framework. This structure allows the model to learn the relationship between the body of a lesion and its boundary under supervision. The key innovation lies in the Feature Fusion and Supervision (FFS) block, which processes both body and boundary information concurrently. Additionally, a novel feature fusion module is proposed to facilitate the integration and interaction of body and boundary information. The model's performance is evaluated on three publicly available ultrasound image datasets: BUSI (breast cancer), UNS (brachial plexus nerves), and UHES (infantile hemangioma).
Key Findings: DBF-Net demonstrates superior performance compared to existing state-of-the-art methods on the three datasets. Specifically, it achieves a Dice Similarity Coefficient (DSC) of 81.05±10.44% for breast cancer segmentation, 76.41±5.52% for brachial plexus nerves segmentation, and 87.75±4.18% for infantile hemangioma segmentation.
Main Conclusions: The integration of body and boundary information, coupled with the proposed feature fusion module, significantly contributes to DBF-Net's effectiveness in ultrasound image segmentation. The authors suggest that this approach holds promise for advancing the accuracy of lesion delineation in ultrasound images.
Significance: Accurate segmentation of ultrasound images is crucial for various medical diagnoses and treatment planning. DBF-Net's improved accuracy, especially at lesion boundaries, could potentially lead to more reliable diagnoses and better treatment outcomes.
Limitations and Future Research: The study is limited by the size of the datasets used. Future research could explore the performance of DBF-Net on larger and more diverse datasets. Additionally, investigating the generalizability of DBF-Net to other medical image segmentation tasks could be beneficial.
In un'altra lingua
dal contenuto originale
arxiv.org
Approfondimenti chiave tratti da
by Guoping Xu, ... alle arxiv.org 11-19-2024
https://arxiv.org/pdf/2411.11116.pdfDomande più approfondite