idw – Informationsdienst Wissenschaft
Nachrichten, Termine, Experten
Nachrichten, Termine, Experten
Using a wide range of sensors and an ultra-broadband network created by team members, emergency services can orientate themselves and coordinate effectively even without light, GNSS or external communication.
Operations underground, for example in underground stations, tunnels or mines, are risky and difficult for rescue teams. This is especially true if the technical infrastructure has collapsed due to explosions or fire, and there are no mobile phone signals, electricity, light, Wi-Fi or GNSS, while smoke, debris and damaged paths make orientation even more difficult. In the NIKE MATE project, funded by the Austrian Research Promotion Agency (FFG), a research team consisting of Graz University of Technology (TU Graz), the University of Leoben, the Federal Ministry of Defence, OHB Austria and the Laabmayr Engineering Office has developed a system for such missions. It combines sensor data from robots and rescue teams with a self-built UWB (ultra-wideband) network. This creates a dynamic map of the environment in which the team can locate and coordinate itself.
A team of humans and robots
The central innovation of the project is “teaming”. A robot with highly developed sensor technology first explores the surroundings and creates the dynamic map. The position information obtained is exchanged via a UWB transmitter with emergency personnel following behind or working in parallel, who are themselves equipped with UWB tags and who place UWB anchors along their route. In addition to stable data transmission, the anchors also enable distance measurements between all participants even without a direct line of sight. This creates a network of distance measurements in which the positions of robots and people can be determined with an accuracy of closer than one metre. “This precise localisation is a decisive safety factor, for example if there is an open lift door or a precipice in front of a person,” says project manager Philipp Berglez from the Institute of Geodesy at TU Graz.
Sensor technology plays an important role in localisation. The robot uses a laser scanner, a camera and wheel sensors to create a map of its surroundings. This means that the emergency services do not have to rely on plans that may be outdated or no longer correct due to damage. The rescue workers who follow have inertial sensors (accelerometers and angular rate sensors) on their shoes. Using AI-based analysis, the system recognises various movement patterns such as walking, crawling on all fours or belly crawling.
Drone data planned to be included
To ensure that the position calculations are not only accurate but also reliable, the project team uses factor graph optimisation methods. These originate from robotics and make it possible to take past measurements into account again and thus better determine the current position. If robots or people pass the same place at different times, their data can be linked and the map continuously improved.
“The prototype we developed proved its suitability for use during our tests at Zentrum am Berg at the University of Leoben,” says Philipp Berglez. “For real-life use, we now need to make the individual components even more robust so that they can withstand real-life conditions and function reliably. We would also like to expand the system to include mini-drones in order to obtain additional data from a slightly higher position in the event of an emergency, which could significantly help the emergency services in their work.”
Philipp BERGLEZ
Univ.-Prof. Dipl.-Ing. Dr.techn.
TU Graz | Institute of Geodesy
Phone: +43 316 873 6830
pberglez@tugraz.at
Sifferlinger, N., Berglez, P., Wetzko, M. et al.: Abschluss des KIRAS FFG Projekts NIKE MATE. Berg Huettenmaenn Monatsh 171, 65–73 (2026). https://doi.org/10.1007/s00501-026-01705-w
A driving robot during tests in a tunnel.
Quelle: IFG – TU Graz
Copyright: IFG – TU Graz
Merkmale dieser Pressemitteilung:
Journalisten
Geowissenschaften, Informationstechnik
überregional
Forschungsergebnisse
Englisch
A driving robot during tests in a tunnel.
Quelle: IFG – TU Graz
Copyright: IFG – TU Graz
Sie können Suchbegriffe mit und, oder und / oder nicht verknüpfen, z. B. Philo nicht logie.
Verknüpfungen können Sie mit Klammern voneinander trennen, z. B. (Philo nicht logie) oder (Psycho und logie).
Zusammenhängende Worte werden als Wortgruppe gesucht, wenn Sie sie in Anführungsstriche setzen, z. B. „Bundesrepublik Deutschland“.
Die Erweiterte Suche können Sie auch nutzen, ohne Suchbegriffe einzugeben. Sie orientiert sich dann an den Kriterien, die Sie ausgewählt haben (z. B. nach dem Land oder dem Sachgebiet).
Haben Sie in einer Kategorie kein Kriterium ausgewählt, wird die gesamte Kategorie durchsucht (z.B. alle Sachgebiete oder alle Länder).
