Many-to-many spacecraft autonomous evasion missions necessitate highly coordinated decision-making among several spacecraft to successfully avoid interceptions. Conventional control methods often struggle to manage the inherent complexity and uncertainty of these missions. In response to this challenge, we employ multi-agent reinforcement learning (MARL) algorithms that draw upon machine learning and game theory concepts. Our work is devoted to implementing MARL to facilitate autonomous and intelligent evasion maneuvers by spacecraft, considering the dynamic nature of the space environment and the multiple agent interactions. We utilize the Satellite Tool Kit (STK) as a simulation environment and assess cutting-edge MARL algorithms, with the goal of showcasing the potential of MARL in complex spacecraft evasion missions. Our research endeavors to enhance the autonomy, adaptability, and mission success rate of spacecraft systems under unpredictable circumstances, thereby facilitating more intelligent and adaptive space exploration.
Decision-Making for Satellite Anti-Interception Missions Leveraging Multi-Agent Reinforcement Learning
2023-09-22
615542 byte
Conference paper
Electronic Resource
English
Loitering Munition Interception Decision-Making Technology Based on Deep Reinforcement Learning
Springer Verlag | 2025
|A Multi-agent Reinforcement Learning Framework for Coordinated Multi-UAV Interception Strategies
Springer Verlag | 2025
|