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Autori principali: Fabian, Stefan, Schmidt, Aljoscha, Süß, Jonas, Dishant, Oza, Aum, von Stryk, Oskar
Natura: Preprint
Pubblicazione: 2026
Soggetti:
Accesso online:https://arxiv.org/abs/2602.19898
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author Fabian, Stefan
Schmidt, Aljoscha
Süß, Jonas
Dishant
Oza, Aum
von Stryk, Oskar
author_facet Fabian, Stefan
Schmidt, Aljoscha
Süß, Jonas
Dishant
Oza, Aum
von Stryk, Oskar
contents In disaster response and situation assessment, robots have great potential in reducing the risks to the safety and health of first responders. As the situations encountered and the required capabilities of the robots deployed in such missions differ wildly and are often not known in advance, heterogeneous fleets of robots are needed to cover a wide range of mission requirements. While UAVs can quickly survey the mission environment, their ability to carry heavy payloads such as sensors and manipulators is limited. UGVs can carry required payloads to assess and manipulate the mission environment, but need to be able to deal with difficult and unstructured terrain such as rubble and stairs. The ability of tracked platforms with articulated arms (flippers) to reconfigure their geometry makes them particularly effective for navigating challenging terrain. In this paper, we present Athena, an open-hardware rescue ground robot research platform with four individually reconfigurable flippers and a reliable low-cost remote emergency stop (E-Stop) solution. A novel mounting solution using an industrial PU belt and tooth inserts allows the replacement and testing of different track profiles. The manipulator with a maximum reach of 1.54m can be used to operate doors, valves, and other objects of interest. Full CAD & PCB files, as well as all low-level software, are released as open-source contributions.
format Preprint
id arxiv_https___arxiv_org_abs_2602_19898
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Athena: An Autonomous Open-Hardware Tracked Rescue Robot Platform
Fabian, Stefan
Schmidt, Aljoscha
Süß, Jonas
Dishant
Oza, Aum
von Stryk, Oskar
Robotics
In disaster response and situation assessment, robots have great potential in reducing the risks to the safety and health of first responders. As the situations encountered and the required capabilities of the robots deployed in such missions differ wildly and are often not known in advance, heterogeneous fleets of robots are needed to cover a wide range of mission requirements. While UAVs can quickly survey the mission environment, their ability to carry heavy payloads such as sensors and manipulators is limited. UGVs can carry required payloads to assess and manipulate the mission environment, but need to be able to deal with difficult and unstructured terrain such as rubble and stairs. The ability of tracked platforms with articulated arms (flippers) to reconfigure their geometry makes them particularly effective for navigating challenging terrain. In this paper, we present Athena, an open-hardware rescue ground robot research platform with four individually reconfigurable flippers and a reliable low-cost remote emergency stop (E-Stop) solution. A novel mounting solution using an industrial PU belt and tooth inserts allows the replacement and testing of different track profiles. The manipulator with a maximum reach of 1.54m can be used to operate doors, valves, and other objects of interest. Full CAD & PCB files, as well as all low-level software, are released as open-source contributions.
title Athena: An Autonomous Open-Hardware Tracked Rescue Robot Platform
topic Robotics
url https://arxiv.org/abs/2602.19898