LFTag:一种可扩展的低空间频率视觉基准系统

2020 2nd International Conference on Advances in Computer Technology, Information Science and Communications (CTISC) Pub Date : 2020-03-01 DOI:10.1109/CTISC49998.2020.00030

Ben Wang

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引用次数: 8

摘要

视觉基准系统是许多机器人和AR/VR应用的关键组成部分，用于6自由度单眼相对姿态估计和目标识别。本文提出了一种基于拓扑检测和相对位置数据编码的视觉基准系统LFTag，该系统在空间频率约束下优化了数据密度。该标记用于解决旋转模糊，结合鲁棒的几何和拓扑误报抑制，允许所有标记位用于数据。与仿真中现有的最先进的正方形二进制标记(AprilTag)和拓扑标记(TopoTag)相比，所提出的基准系统(LFTag)在字典大小和范围方面提供了显着的进步。LFTag 3×3达到了AprilTag 25h9字典大小的546倍，LFTag 4×4达到了AprilTag 41h12字典大小的12.6万倍，同时实现了更长的检测范围。在相同字典大小的情况下，LFTag 3×3的检测范围是TopoTag 4×4的两倍以上。

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LFTag: A Scalable Visual Fiducial System with Low Spatial Frequency

Visual fiducial systems are a key component of many robotics and AR/VR applications for 6-DOF monocular relative pose estimation and target identification. This paper presents LFTag, a visual fiducial system based on topological detection and relative position data encoding which optimizes data density within spatial frequency constraints. The marker is constructed to resolve rotational ambiguity, which combined with the robust geometric and topological false positive rejection, allows all marker bits to be used for data.When compared to existing state-of-the-art square binary markers (AprilTag) and topological markers (TopoTag) in simulation, the proposed fiducial system (LFTag) offers significant advances in dictionary size and range. LFTag 3×3 achieves 546 times the dictionary size of AprilTag 25h9 and LFTag 4×4 achieves 126 thousand times the dictionary size of AprilTag 41h12 while simultaneously achieving longer detection range. LFTag 3×3 also achieves more than twice the detection range of TopoTag 4×4 at the same dictionary size.

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来源期刊

2020 2nd International Conference on Advances in Computer Technology, Information Science and Communications (CTISC)

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