Flexible Disaster Response of Tomorrow -- Final Presentation and Evaluation of the CENTAURO System

• Main Authors: Klamt, Tobias, Rodriguez, Diego, Baccelliere, Lorenzo, Chen, Xi, Chiaradia, Domenico, Cichon, Torben, Gabardi, Massimiliano, Guria, Paolo, Holmquist, Karl, Kamedula, Malgorzata, Karaoguz, Hakan, Kashiri, Navvab, Laurenzi, Arturo, Lenz, Christian, Leonardis, Daniele, Hoffman, Enrico Mingo, Muratore, Luca, Pavlichenko, Dmytro, Porcini, Francesco, Ren, Zeyu, Schilling, Fabian, Schwarz, Max, Solazzi, Massimiliano, Felsberg, Michael, Frisoli, Antonio, Gustmann, Michael, Jensfelt, Patric, Nordberg, Klas, Roßmann, Jürgen, Süss, Uwe, Tsagarakis, Nikos G, Behnke, Sven
• Format: Journal Article
• Language: English
• Published: 19.09.2019
• Subjects: Computer Science - Robotics
• DOI: 10.48550/arxiv.1909.08812

Mobile manipulation robots have high potential to support rescue forces in disaster-response missions. Despite the difficulties imposed by real-world scenarios, robots are promising to perform mission tasks from a safe distance. In the CENTAURO project, we developed a disaster-response system which consists of the highly flexible Centauro robot and suitable control interfaces including an immersive tele-presence suit and support-operator controls on different levels of autonomy. In this article, we give an overview of the final CENTAURO system. In particular, we explain several high-level design decisions and how those were derived from requirements and extensive experience of Kerntechnische Hilfsdienst GmbH, Karlsruhe, Germany (KHG). We focus on components which were recently integrated and report about a systematic evaluation which demonstrated system capabilities and revealed valuable insights.