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Article Abstract
Medical image segmentation is pivotal in disease diagnosis and treatment. This paper presents a novel network architecture for medical image segmentation, termed TransDLNet, which is engineered to enhance the efficiency of multi-scale information utilization. TransDLNet integrates convolutional neural networks and Transformers, facilitating cross-level multi-scale information fusion for complex medical images. Key to its innovation is the attention-dilated depthwise convolution (ADDC) module, utilizing depthwise convolution (DWConv) with varied dilation rates to enhance local detail capture. A convolution kernel coupled update mechanism and channel information compensation method ensure robust feature representation. Furthermore, the cross-level grouped attention merge (CGAM) module in both encoder and decoder enhances feature interaction and integration across scales, boosting comprehensive representation. We conducted a comprehensive experimental analysis and quantitative evaluation on four datasets representing diverse modalities. The results indicate that the proposed method has good segmentation performance and generalization ability.
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| http://dx.doi.org/10.1016/j.compbiomed.2025.109723 | DOI Listing |
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