Publikation
Pioneering Sustainable Space Ecosystems Through Intelligent Robotics and Collaborative Effort
Amrita Suresh; Mehmed Yüksel; Manuel Meder; Raúl Domínguez; Wiebke Brinkmann
In: Spiros Pantelakis; Andreas Strohmayer; Nikolaos Michailidis (Hrsg.). Engineering Proceedings, Vol. 90, No. 76, Pages 1-9, MDPI, 3/2025.
Zusammenfassung
Humanity’s long-term presence in space entails the establishment of sustainable space ecosystems in both orbital and planetary environments. Sustainable ecosystems are characterized by minimal resource depletion, reduction in space debris, reusable and renewable materials and components, among other factors. However, achieving sustainability in space is challenging due to limited resources, harsh environmental conditions, and the need for continuous operation. Intelligent robotic systems with diverse manipulation and locomotion capabilities using artificial intelligence (AI) are capable of In-Situ Resource Utilization and carrying out autonomous production and maintenance operations. Modular reconfigurable systems and heterogeneous teams allow for optimized task allocation strategies, thus expanding the task domain. Efficient human–robot interaction methods can assist astronauts and future space inhabitants in their routine tasks as well as during critical missions. We also emphasize the importance of collaboration among space agencies, roboticists and AI scientists for shared resources and knowledge, and the development of technology standards and interfaces for systems collaboration. Such cooperative efforts are vital to ensure the long-term viability of space exploration and settlement. This paper explores how AI-driven autonomous robots are being developed at the German Research Center for Artificial Intelligence and University of Bremen (Germany) to address these challenges.
Projekte
- PRO-ACT (OG11) - Planetary RObots Deployed for Assembly and Construction Tasks
- SAMLER-KI - Sem-Autonomer Microrover für Lunare Exploration mit Künstlicher Intelligenz