Distributed DQN-based network-wide energy efficiency maximization for 5G NR-U and Wi-Fi coexistence environments

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Abstract

To effectively manage the escalating traffic, attention is drawn to the coexistence mechanism of cellular and Wi-Fi networks which offload the cellular traffic from the licensed band to the unlicensed band. For the coexistence of 5G new radio-unlicensed and Wi-Fi, we tackle the energy efficiency maximization problem by sequentially determining the duty cycle and transmit power through the use of distributed deep Q-network (DQN) techniques. When utilizing the existing unlicensed band, the proposed method minimizes the impact on Wi-Fi networks while achieving optimal energy efficiency. Simulations validate the superior energy efficiency of the proposed coexistence mechanism over various benchmark methods.

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APA

Lee, J., Lim, S. C., Kim, H., Na, J. H., & Lee, H. (2024). Distributed DQN-based network-wide energy efficiency maximization for 5G NR-U and Wi-Fi coexistence environments. ICT Express, 10(4), 845–850. https://doi.org/10.1016/j.icte.2024.05.010

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