Spacecraft Fiducial Marker for Autonomous Rendezvous, Proximity Operations, and Docking
Existing fiducial markers are mostly single-scale and designed for terrestrial robotics, leaving the camera's field of view at close range during critical proximity and docking phases. This paper presents AstraTag, a fiducial marker based on a square Spidron pattern with recursive self-similar structure enabling multi-scale detection, 48-bit identification encoded with Generalized Reed-Solomon code, and Thin-Plate Spline re-warp for curved surfaces. Benchmarked on spacecraft mockups, AstraTag achieves higher detection rate on curved surfaces than three-layer Fractal ArUco and AprilTag, offering a robust recursive-marker option for space robotics.
[2606.27566] Spacecraft Fiducial Marker for Autonomous Rendezvous, Proximity Operations, and Docking
[Submitted on 25 Jun 2026]
Title:Spacecraft Fiducial Marker for Autonomous Rendezvous, Proximity Operations, and Docking
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Abstract:Robotic operations in space are challenging due to the harsh environment and the high cost of failure. Fiducial markers provide visual references that aid autonomous rendezvous, proximity operations, and docking for space robots. However, existing fiducial markers are mostly single-scale and largely designed for terrestrial robotics. Such markers leave the camera's field of view at close range, precisely during the proximity and docking phases where reliable tracking is most critical. This paper presents AstraTag, a fiducial marker designed for autonomous on-orbit robotic operations. The marker template is based on a square Spidron pattern whose recursive, self-similar structure enables detection across multiple spatial scales. Marker identification uses a 48-bit signature derived from triangular sub-regions of the template and encoded with a Generalised Reed-Solomon (GRS) code. The detection pipeline performs contour-based quadrilateral localisation, perspective normalisation, and signature matching against a pre-computed dictionary. To handle markers affixed to curved spacecraft surfaces, it incorporates a Thin-Plate Spline (TPS) re-warp fallback that exploits the marker's internal rectangular borders as additional geometric correspondences. We benchmark AstraTag against three-layer Fractal ArUco and AprilTag on spacecraft mockups with flat and curved surfaces. On curved surfaces, AstraTag achieves a higher detection rate than both baselines, offering a robust recursive-marker option for space robotics.
Subjects:
Robotics (cs.RO)
Cite as: arXiv:2606.27566 [cs.RO]
(or arXiv:2606.27566v1 [cs.RO] for this version)
https://doi.org/10.48550/arXiv.2606.27566
arXiv-issued DOI via DataCite (pending registration)
Submission history
From: Ravi Kumar Thakur [view email] [v1] Thu, 25 Jun 2026 21:52:15 UTC (9,398 KB)
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