Since the 6th Generation (6G) of wireless networks is expected to provide a new level of network services and meet the emerging expectations of the future, it will be a complex and intricate networking system. 6Gs sophistication and robustness will be accompanied by complexities, which will require novel strategies to tackle them. This research work focuses on decentralized and multi-level system models for 6G networks and proposes an energy efficient automation strategy for edge domain management and Network Slicing (NS) with the main objective of reducing the networks complexity by leveraging scalability, efficiency, and generalization. Accordingly, we propose a pre-train phase to discover useful assignment skills in network edge domains by utilizing unsupervised Reinforcement Learning (unsupervised RL). The suggested technique does not depend on the domain specifications and thus is applicable to all the edge domains. Our proposed approach not only enables scalability and decentralization, but it also delivers efficiency by assisting domain controllers to provide various service types. We implemented the pre-training phase, and monitored that the discovered assignment skills span the entire interval of possible resource assignment portions for every service type.
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