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Main Authors: Rohe, Tobias, Kölle, Michael, Matheis, Jan, Höpfl, Rüdiger, Sünkel, Leo, Linnhoff-Popien, Claudia
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2501.08220
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author Rohe, Tobias
Kölle, Michael
Matheis, Jan
Höpfl, Rüdiger
Sünkel, Leo
Linnhoff-Popien, Claudia
author_facet Rohe, Tobias
Kölle, Michael
Matheis, Jan
Höpfl, Rüdiger
Sünkel, Leo
Linnhoff-Popien, Claudia
contents Satellite communication is a key technology in our modern connected world. With increasingly complex hardware, one challenge is to efficiently configure links (connections) on a satellite transponder. Planning an optimal link configuration is extremely complex and depends on many parameters and metrics. The optimal use of the limited resources, bandwidth and power of the transponder is crucial. Such an optimization problem can be approximated using metaheuristic methods such as simulated annealing, but recent research results also show that reinforcement learning can achieve comparable or even better performance in optimization methods. However, there have not yet been any studies on link configuration on satellite transponders. In order to close this research gap, a transponder environment was developed as part of this work. For this environment, the performance of the reinforcement learning algorithm PPO was compared with the metaheuristic simulated annealing in two experiments. The results show that Simulated Annealing delivers better results for this static problem than the PPO algorithm, however, the research in turn also underlines the potential of reinforcement learning for optimization problems.
format Preprint
id arxiv_https___arxiv_org_abs_2501_08220
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Optimization of Link Configuration for Satellite Communication Using Reinforcement Learning
Rohe, Tobias
Kölle, Michael
Matheis, Jan
Höpfl, Rüdiger
Sünkel, Leo
Linnhoff-Popien, Claudia
Artificial Intelligence
Satellite communication is a key technology in our modern connected world. With increasingly complex hardware, one challenge is to efficiently configure links (connections) on a satellite transponder. Planning an optimal link configuration is extremely complex and depends on many parameters and metrics. The optimal use of the limited resources, bandwidth and power of the transponder is crucial. Such an optimization problem can be approximated using metaheuristic methods such as simulated annealing, but recent research results also show that reinforcement learning can achieve comparable or even better performance in optimization methods. However, there have not yet been any studies on link configuration on satellite transponders. In order to close this research gap, a transponder environment was developed as part of this work. For this environment, the performance of the reinforcement learning algorithm PPO was compared with the metaheuristic simulated annealing in two experiments. The results show that Simulated Annealing delivers better results for this static problem than the PPO algorithm, however, the research in turn also underlines the potential of reinforcement learning for optimization problems.
title Optimization of Link Configuration for Satellite Communication Using Reinforcement Learning
topic Artificial Intelligence
url https://arxiv.org/abs/2501.08220