# TopoTag: A Robust and Scalable Topological Fiducial Marker System

**Authors:** Guoxing Yu, Yongtao Hu, Jingwen Dai

arXiv: 1908.01450 · 2020-04-16

## TL;DR

TopoTag is a new topological fiducial marker system that offers high robustness, scalability, and accurate pose estimation, outperforming previous systems in diverse real-world scenarios.

## Contribution

We introduce TopoTag, a scalable and robust topological fiducial marker system that supports millions of unique IDs and achieves superior detection and pose estimation accuracy.

## Key findings

- Outperforms previous systems in detection accuracy and pose jitter
- Supports millions of unique IDs with high scalability
- Maintains robustness under occlusion and various environmental conditions

## Abstract

Fiducial markers have been playing an important role in augmented reality (AR), robot navigation, and general applications where the relative pose between a camera and an object is required. Here we introduce TopoTag, a robust and scalable topological fiducial marker system, which supports reliable and accurate pose estimation from a single image. TopoTag uses topological and geometrical information in marker detection to achieve higher robustness. Topological information is extensively used for 2D marker detection, and further corresponding geometrical information for ID decoding. Robust 3D pose estimation is achieved by taking advantage of all TopoTag vertices. Without sacrificing bits for higher recall and precision like previous systems, TopoTag can use full bits for ID encoding. TopoTag supports tens of thousands unique IDs and easily extends to millions of unique tags resulting in massive scalability. We collected a large test dataset including in total 169,713 images for evaluation, involving in-plane and out-of-plane rotation, image blur, different distances and various backgrounds, etc. Experiments on the dataset and real indoor and outdoor scene tests with a rolling shutter camera both show that TopoTag significantly outperforms previous fiducial marker systems in terms of various metrics, including detection accuracy, vertex jitter, pose jitter and accuracy, etc. In addition, TopoTag supports occlusion as long as the main tag topological structure is maintained and allows for flexible shape design where users can customize internal and external marker shapes. Code for our marker design/generation, marker detection, and dataset are available at http://herohuyongtao.github.io/research/publications/topo-tag/.

## Full text

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## Figures

89 figures with captions in the complete paper: https://tomesphere.com/paper/1908.01450/full.md

## References

51 references — full list in the complete paper: https://tomesphere.com/paper/1908.01450/full.md

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Source: https://tomesphere.com/paper/1908.01450