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Autori principali: Zhou, Ruqin, Dai, Chenguang, Jiang, Wanshou, Zhang, Yongsheng, Wang, Hanyun, Jiang, San
Natura: Preprint
Pubblicazione: 2025
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Accesso online:https://arxiv.org/abs/2505.13856
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author Zhou, Ruqin
Dai, Chenguang
Jiang, Wanshou
Zhang, Yongsheng
Wang, Hanyun
Jiang, San
author_facet Zhou, Ruqin
Dai, Chenguang
Jiang, Wanshou
Zhang, Yongsheng
Wang, Hanyun
Jiang, San
contents Vectorized HD map is essential for autonomous driving. Remarkable work has been achieved in recent years, but there are still major issues: (1) in the generation of the BEV features, single modality-based methods are of limited perception capability, while direct concatenation-based multi-modal methods fail to capture synergies and disparities between different modalities, resulting in limited ranges with feature holes; (2) in the classification and localization of map elements, only point information is used without the consideration of element infor-mation and neglects the interaction between point information and element information, leading to erroneous shapes and element entanglement with low accuracy. To address above issues, we introduce SuperMapNet for long-range and high-accuracy vectorized HD map construction. It uses both camera images and LiDAR point clouds as input, and first tightly couple semantic information from camera images and geometric information from LiDAR point clouds by a cross-attention based synergy enhancement module and a flow-based disparity alignment module for long-range BEV feature generation. And then, local features from point queries and global features from element queries are tightly coupled by three-level interactions for high-accuracy classification and localization, where Point2Point interaction learns local geometric information between points of the same element and of each point, Element2Element interaction learns relation constraints between different elements and semantic information of each elements, and Point2Element interaction learns complement element information for its constituent points. Experiments on the nuScenes and Argoverse2 datasets demonstrate superior performances, surpassing SOTAs over 14.9/8.8 mAP and 18.5/3.1 mAP under hard/easy settings, respectively. The code is made publicly available1.
format Preprint
id arxiv_https___arxiv_org_abs_2505_13856
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle SuperMapNet for Long-Range and High-Accuracy Vectorized HD Map Construction
Zhou, Ruqin
Dai, Chenguang
Jiang, Wanshou
Zhang, Yongsheng
Wang, Hanyun
Jiang, San
Computer Vision and Pattern Recognition
Vectorized HD map is essential for autonomous driving. Remarkable work has been achieved in recent years, but there are still major issues: (1) in the generation of the BEV features, single modality-based methods are of limited perception capability, while direct concatenation-based multi-modal methods fail to capture synergies and disparities between different modalities, resulting in limited ranges with feature holes; (2) in the classification and localization of map elements, only point information is used without the consideration of element infor-mation and neglects the interaction between point information and element information, leading to erroneous shapes and element entanglement with low accuracy. To address above issues, we introduce SuperMapNet for long-range and high-accuracy vectorized HD map construction. It uses both camera images and LiDAR point clouds as input, and first tightly couple semantic information from camera images and geometric information from LiDAR point clouds by a cross-attention based synergy enhancement module and a flow-based disparity alignment module for long-range BEV feature generation. And then, local features from point queries and global features from element queries are tightly coupled by three-level interactions for high-accuracy classification and localization, where Point2Point interaction learns local geometric information between points of the same element and of each point, Element2Element interaction learns relation constraints between different elements and semantic information of each elements, and Point2Element interaction learns complement element information for its constituent points. Experiments on the nuScenes and Argoverse2 datasets demonstrate superior performances, surpassing SOTAs over 14.9/8.8 mAP and 18.5/3.1 mAP under hard/easy settings, respectively. The code is made publicly available1.
title SuperMapNet for Long-Range and High-Accuracy Vectorized HD Map Construction
topic Computer Vision and Pattern Recognition
url https://arxiv.org/abs/2505.13856