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Main Authors: Qi, Kaili, Yang, Wenli, Li, Ye, Huang, Zhongyi
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2505.05806
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author Qi, Kaili
Yang, Wenli
Li, Ye
Huang, Zhongyi
author_facet Qi, Kaili
Yang, Wenli
Li, Ye
Huang, Zhongyi
contents Traditional image segmentation methods, such as variational models based on partial differential equations (PDEs), offer strong mathematical interpretability and precise boundary modeling, but often suffer from sensitivity to parameter settings and high computational costs. In contrast, deep learning models such as UNet, which are relatively lightweight in parameters, excel in automatic feature extraction but lack theoretical interpretability and require extensive labeled data. To harness the complementary strengths of both paradigms, we propose Variational Model Based Tailored UNet (VM_TUNet), a novel hybrid framework that integrates the fourth-order modified Cahn-Hilliard equation with the deep learning backbone of UNet, which combines the interpretability and edge-preserving properties of variational methods with the adaptive feature learning of neural networks. Specifically, a data-driven operator is introduced to replace manual parameter tuning, and we incorporate the tailored finite point method (TFPM) to enforce high-precision boundary preservation. Experimental results on benchmark datasets demonstrate that VM_TUNet achieves superior segmentation performance compared to existing approaches, especially for fine boundary delineation.
format Preprint
id arxiv_https___arxiv_org_abs_2505_05806
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Image Segmentation via Variational Model Based Tailored UNet: A Deep Variational Framework
Qi, Kaili
Yang, Wenli
Li, Ye
Huang, Zhongyi
Computer Vision and Pattern Recognition
Traditional image segmentation methods, such as variational models based on partial differential equations (PDEs), offer strong mathematical interpretability and precise boundary modeling, but often suffer from sensitivity to parameter settings and high computational costs. In contrast, deep learning models such as UNet, which are relatively lightweight in parameters, excel in automatic feature extraction but lack theoretical interpretability and require extensive labeled data. To harness the complementary strengths of both paradigms, we propose Variational Model Based Tailored UNet (VM_TUNet), a novel hybrid framework that integrates the fourth-order modified Cahn-Hilliard equation with the deep learning backbone of UNet, which combines the interpretability and edge-preserving properties of variational methods with the adaptive feature learning of neural networks. Specifically, a data-driven operator is introduced to replace manual parameter tuning, and we incorporate the tailored finite point method (TFPM) to enforce high-precision boundary preservation. Experimental results on benchmark datasets demonstrate that VM_TUNet achieves superior segmentation performance compared to existing approaches, especially for fine boundary delineation.
title Image Segmentation via Variational Model Based Tailored UNet: A Deep Variational Framework
topic Computer Vision and Pattern Recognition
url https://arxiv.org/abs/2505.05806