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Main Authors: Di, Chong, Zhang, Jinglin, Li, Zhenjiang, Mirebeau, Jean-Marie, Chen, Da, Cohen, Laurent D.
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2506.18930
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author Di, Chong
Zhang, Jinglin
Li, Zhenjiang
Mirebeau, Jean-Marie
Chen, Da
Cohen, Laurent D.
author_facet Di, Chong
Zhang, Jinglin
Li, Zhenjiang
Mirebeau, Jean-Marie
Chen, Da
Cohen, Laurent D.
contents Optimal curve methods provide a fundamental framework for tubular centerline tracking. Point-wise approaches, such as minimal paths, are theoretically elegant but often suffer from shortcut and short-branch combination problems in complex scenarios. Nonlocal segment-wise methods address these issues by mapping pre-extracted centerline fragments onto a segment-proposal graph, performing optimization in this abstract space, and recovering the target tubular centerline from the resulting optimal path. In this paradigm, graph construction is critical, as it directly determines the quality of the final result. However, existing segment-wise methods construct graphs in a static manner, requiring all edges and their weights to be pre-computed, i.e. the graph must be sufficiently complete prior to search. Otherwise, the true path may be absent from the candidate space, leading to search failure. To address this limitation, we propose a dynamic exploration scheme for constructing segment-proposal graphs, where the graph is built on demand during the search for optimal paths. By formulating the problem as a Markov decision process, we apply Q-learning to compute edge weights only for visited transitions and adaptively expand the action space when connectivity is insufficient. Experimental results on retinal vessels, roads, and rivers demonstrate consistent improvements over state-of-the-art methods in both accuracy and efficiency.
format Preprint
id arxiv_https___arxiv_org_abs_2506_18930
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Dynamic Exploration on Segment-Proposal Graphs for Tubular Centerline Tracking
Di, Chong
Zhang, Jinglin
Li, Zhenjiang
Mirebeau, Jean-Marie
Chen, Da
Cohen, Laurent D.
Computer Vision and Pattern Recognition
Artificial Intelligence
Machine Learning
Optimal curve methods provide a fundamental framework for tubular centerline tracking. Point-wise approaches, such as minimal paths, are theoretically elegant but often suffer from shortcut and short-branch combination problems in complex scenarios. Nonlocal segment-wise methods address these issues by mapping pre-extracted centerline fragments onto a segment-proposal graph, performing optimization in this abstract space, and recovering the target tubular centerline from the resulting optimal path. In this paradigm, graph construction is critical, as it directly determines the quality of the final result. However, existing segment-wise methods construct graphs in a static manner, requiring all edges and their weights to be pre-computed, i.e. the graph must be sufficiently complete prior to search. Otherwise, the true path may be absent from the candidate space, leading to search failure. To address this limitation, we propose a dynamic exploration scheme for constructing segment-proposal graphs, where the graph is built on demand during the search for optimal paths. By formulating the problem as a Markov decision process, we apply Q-learning to compute edge weights only for visited transitions and adaptively expand the action space when connectivity is insufficient. Experimental results on retinal vessels, roads, and rivers demonstrate consistent improvements over state-of-the-art methods in both accuracy and efficiency.
title Dynamic Exploration on Segment-Proposal Graphs for Tubular Centerline Tracking
topic Computer Vision and Pattern Recognition
Artificial Intelligence
Machine Learning
url https://arxiv.org/abs/2506.18930