计算机科学
人工智能
分割
模式识别(心理学)
卷积神经网络
图像分割
像素
基本事实
计算机视觉
小波
频域
变压器
深度学习
图像(数学)
混合神经网络
人工神经网络
编码(社会科学)
高光谱成像
小波变换
网络体系结构
精确性和召回率
尺度空间分割
嵌入
图像处理
混合图像
计算
作者
Ke Zhou,Tianxiang Chen,Jiayuan Huang,Dongmei Fu,Chuanjiang Qi
标识
DOI:10.1016/j.engappai.2026.114324
摘要
Precise medical image segmentation is vital for computer-aided diagnosis, yet current methods struggle with subtle endoscopic areas where lesions and normal tissue appear similar. To address this, we propose a shape-aware partitioning model with a dual-branch architecture. Its high-frequency branch captures edges and fine details, while the low-frequency branch focuses on overall shape and color distribution. The proposed model integrates these features via a hybrid decoder and a chimeric wavelet block, facilitating continuous bilateral information interaction. We also introduce a dual-domain loss function to comprehensively evaluate model output against ground truth, especially when pixel value differences are small but frequency domain differences are significant. The proposed method markedly enhances the accuracy and efficiency of computer-aided diagnosis, particularly in polyp and skin lesion segmentation. By accurately capturing lesion shape and volume, it provides a robust tool crucial for disease grading and treatment planning. Moreover, it outperforms comparable hybrid architectures integrating convolutional neural networks and transformers on public endoscopic polyp segmentation benchmarks. Quantitatively, it achieves a 15.29% higher intersection over union than conventional hybrid networks with a 33.75 giga floating-point operations reduction. Furthermore, it shows a 5.93% improvement over hierarchical hybrid models with an 11.74 giga floating-point operations decrease.
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